Process for making semiconductor dies, chips, and wafers using in-line measurements obtained from DOEs of NCEM-enabled fill cells

ABSTRACT

Improved processes for manufacturing wafers, chips, or dies utilize in-line data obtained from non-contact electrical measurements (“NCEM”) of fill cells that contain structures configured target/expose a variety of open-circuit, short-circuit, leakage, or excessive resistance failure modes. Such processes may involve evaluating Designs of Experiments (“DOEs”), comprised of multiple NCEM-enabled fill cells, in at least two variants, all targeted to the same failure mode(s).

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority from U.S. Pat. Applic. Ser. 62/268,463, entitled “Integrated Circuit Containing DOEs of NCEM-enabled Fill Cells+Process for Making Semiconductor Dies, Chips, and Wafers Using In-Line Measurements Obtained From DOEs of NCEM-enabled Fill Cells,” filed Dec. 16, 2015, which '463 application is incorporated by reference herein.

Mask Work Notice

A portion of the disclosure of this patent document (including its incorporated documents) contains material which is subject to mask work protection, *M*, PDF Solutions, Inc. The mask work owner (PDF Solutions, Inc.) has no objection to the facsimile reproduction by anyone of the patent document (including its incorporated documents) or the patent disclosure, as it appears in the Patent and Trademark Office patent file or records, but otherwise reserves all mask work rights whatsoever.

FIELD OF THE INVENTION

This invention relates generally to improved processes for manufacturing semiconductor wafers and chips through use of in-line measurements obtained via non-contact electrical measurements (“NCEM”), to on-chip structures configured to provide useful information via NCEM, and to implementation of NCEM structures in library compatible fill cells.

BACKGROUND OF THE INVENTION

This invention relates generally to improved processes for manufacturing semiconductor wafers and chips through use of in-line measurements obtained via non-contact electrical measurements (“NCEM”), to on-chip structures configured to provide useful information via NCEM, and to implementation of NCEM structures in library compatible fill cells.

BACKGROUND OF THE INVENTION

U.S. Pat. No. 5,008,727 (“Standard cell having test pad for probing and semiconductor integrated circuit device containing the standard cells”) to Katsura et al., incorporated by reference herein, discloses placement of a testing pad in a standard cell.

U.S. Pat. No. 6,091,249 A (“Method and apparatus for detecting defects in wafers”) to Graham et al., incorporated by reference herein, discloses structures and methods for testing certain defects using a non-contact (“NC”) technique.

U.S. Pat. No. 6,452,412 B1 (“Drop-in test structure and methodology for characterizing an integrated circuit process flow and topography”) to Jarvis et al., incorporated by reference herein, discloses structures and methods for testing certain defects using an NC technique.

U.S. Pat. No. 6,949,765 B2 (“Padless structure design for easy identification of bridging defects in lines by passive voltage contrast”) to Song et al., incorporated by reference herein, discloses structures and methods for testing certain defects using an NC technique.

U.S. Pat. No. 7,101,722 B1 (“In-line voltage contrast determination of tunnel oxide weakness in integrated circuit technology development”) to Wang et al., incorporated by reference herein, discloses structures and methods for testing certain defects using an NC technique.

U.S. Pat. No. 7,105,436 B2 (“Method for in-line monitoring of via/contact holes etch process based on test structures in semiconductor wafer manufacturing”) to Zhao et al., incorporated by reference herein, discloses structures and methods for testing certain defects using an NC technique.

U.S. Pat. No. 7,518,190 B2 (“Grounding front-end-of-line structures on a 501 substrate”) to Cote et al., incorporated by reference herein, discloses structures and methods for testing certain defects using an NC technique.

U.S. Pat. No. 7,930,660 B2 (“Measurement structure in a standard cell for controlling process parameters during manufacturing of an integrated circuit”), to Ruderer et al., incorporated by reference herein, describes the use of test structures in fill cells for manufacturing optimization.

U.S. Pat. No. 7,939,348 B2 (“E-beam inspection structure for leakage analysis”), to Seng et al., incorporated by reference herein, discloses structures and methods for testing certain defects using an NC technique.

U.S. Pat. No. 8,039,837 B2 (“In-line voltage contrast detection of PFET silicide encroachment”) to Patterson et al., incorporated by reference herein, discloses structures and methods for testing certain defects using an NC technique.

U.S. Pat. No. 8,339,449 B2 (“Defect monitoring in semiconductor device fabrication”), to Fong et al., incorporated by reference herein, discloses structures and methods for testing certain defects using an NC technique.

U.S. Pat. No. 8,399,266 B2 (“Test structure for detection of gap in conductive layer of multilayer gate stack”) to Mo et al., incorporated by reference herein, discloses structures and methods for testing certain defects using an NC technique.

U.S. Pat. No. 8,421,009 B2 (“Test structure for charged particle beam inspection and method for defect determination using the same”) to Xiao, incorporated by reference herein, discloses structures and methods for testing certain defects using an NC technique.

U.S. Pat. No. 8,575,955 B1 (“Apparatus and method for electrical detection and localization of shorts in metal interconnect lines”) to Brozek, incorporated by reference herein, discloses structures and methods for testing certain defects using an NC technique.

U.S. Patent Publication 20090102501 A1 (“Test structures for e-beam testing of systematic and random defects in integrated circuits”) to Guldi et al., incorporated by reference herein, discloses structures and methods for testing certain defects using an NC technique.

SUMMARY OF THE INVENTION

The invention generally involves the placement of NC-testable structures, and DOEs (Designs of Experiments) based on such structures, preferably within the “fill cells” typically used in standard cell logic regions. As used in this application, “fill cells” (or “filler cells”) refer to cells configured for placement in standard cell rows, but not configured to perform any logical or information storage function(s). Modern, standard-cell layouts commonly use such fill cells to relieve routing congestion. See, e.g., Cong, J., et al. “Optimizing routability in large-scale mixed-size placement,” ASP-DAC, 2013; and Menezes, C., et al. “Design of regular layouts to improve predictability,” Proceedings of the 6th IEEE International Caribbean Conference on Devices, Circuits and Systems, 2006. See also U.S. Pat. No. 8,504,969 (“Filler Cells for Design Optimization in a Place-and-Route System”) to Lin et al., incorporated by reference herein. As used herein “fill cells” may include structures designed to perform ancillary (i.e., not logical or storage) functions, for example, well ties and/or decoupling capacitors.

One NC measurement technique, useful in connection with certain embodiments of the invention, involves measuring or inspecting the surface of a partially processed wafer (in-line) with a scanning electron microscope (“SEM”) or other charged particle-based scanning/imaging device. As the measuring/inspecting proceeds, the SEM (or other device) induces charge on all electrically floating elements, whereas any grounded elements remain at zero potential. This voltage contrast becomes visible to the scanning/imaging device as a NCEM.

This NC measurement technique, commonly known as “voltage contrast inspection,” has been used in the semiconductor industry for many years, see, e.g., U.S. Pat. No. 6,344,750 B1 (“Voltage contrast method for semiconductor inspection using low voltage particle beam”), and exists in many different flavors—as demonstrated by the dozens of subsequent patents that cite the '750 patent as prior art.

U.S. patent application Ser. No. 14/612,841 (“Opportunistic placement of IC test structures and/or e-beam target pads in areas otherwise used for filler cells, tap cells, decap cells, scribe lines, and/or dummy fill, as well as product IC chips containing same”), filed Feb. 3, 2015, by inventors De et al., incorporated by reference herein, and owned by the assignee of the present application, discloses a number of highly efficient—and herein preferred—methods for obtaining NCEMs from the NCEM-enabled test structures utilized in the present invention. While these '841 methods represent the applicant's preferred NC measurement methods, it is applicant's intent that usage of the terms “NC measurement” or “NCEM” in this application should not be limited to these preferred methods in the absence of specific language (e.g., “selectively targeting . . . ”, “ . . . fewer than 10 pixels”) that indicates an intent to so limit a claim.

In general usage, the term Design of Experiments (DOE) or Experimental Design refers to the design of any information-gathering exercise where variation is present, whether under the full control of the experimenter or not.

Experimental Design is an established field, well known to persons skilled in the art. See NIST/SEMATECH e-Handbook of Statistical Methods, http://www.itl.nist.gov/div898/handbook/, updated Oct. 30, 2013, incorporated by reference herein.

As will be apparent to the skilled reader, the typical DOE herein relates to an experiment involving one or more semiconductor die(s) and/or wafer(s), wherein said one or more die(s) and/or wafer(s) contain multiple instances of a substantially similar test structure, at least some of which vary in terms of one or more layout-related parameters (including, but not limited to, size, spacing, offset, overlap, width, extension, run length, periodicity, density, neighborhood patterning, including underlayers) or process related parameters (including, but not limited to, dose, rate, exposure, processing time, temperature, or any tool-specifiable setting). As the person skilled in the art knows, the selection of specific parameter(s) to vary, the amount/distribution of their variation, and the number and location of test structures that express such variation will be selected based upon the goals of the experiment, the involved process, and the availability of appropriate places (e.g., fill cell locations, tap cell locations, decap cell locations, scribe line areas, etc.) to instantiate the test structures.

Preferred embodiments of the invention utilize DOEs constructed from NCEM-enabled fill cells. In accordance with certain preferred embodiments of the invention, NCEM-enabled fill cells all have some common elements (e.g., height, supply rail configuration, and gate patterning that is consistent with standard cells in the library), then vary according to the measurement type (e.g., short, open, leakage, or resistance), layer(s) involved, and/or structure(s) to be evaluated/tested. Such NCEM-enabled fill cells also generally include a pad, configured to accelerate targeted NC evaluation by, for example, determining an associated NCEM from a small number of enlarged pixels (e.g., 10 or fewer), or without creating any image at all. Such pads can be formed from a variety of low-resistance materials and configured in a variety of shapes.

In certain preferred embodiments, such NCEM-enabled fill cells may additionally include two or more mask-patterned features that define a rectangular test area, such test area being characterized by two parameters (e.g., X/Y or r/θ dimensions). Additionally, for such NCEM-enabled fill cells, an expanded test area surrounds the cell's test area, the expanded test area being defined by a predetermined expansion of each boundary of the test area, or by predetermined proportionate expansion of the test area's area. Alternatively, in the case of cells designed to measure or characterize inter-layer effects, such test areas may be characterized as “test volumes,” with one or more additional parameter(s) characterizing the layers of the defining, mask-patterned features.

For fill cells designed to measure, detect, or characterize electrical short circuit behavior (so-called, “short-configured, NCEM-enabled fill cells”), the test area may represent an intended gap between two pattern-defined features that, in the absence of a manufacturing anomaly, would be electrically isolated. Alternatively, in such short-configured, NCEM-enabled fill cells, the test area may represent an overlap between two pattern-defined features that, in the absence of a manufacturing anomaly, would be electrically isolated. A single short-configured, NCEM-enabled fill cell may contain one or multiple test areas. In the case of a NCEM-enabled fill cell with multiple test areas, each of the cell's test areas is preferably wired in parallel, and each of the cell's test areas (and preferably each of its extended test areas, too) is identically or nearly identically configured.

Fill cells designed to measure, detect, or characterize electrical leakage behavior (so-called, “leakage-configured, NCEM-enabled fill cells”) typically resemble short-configured cells. Like the short-configured cells, such leakage-configured cells may include a test area that represents an intended gap between two pattern-defined features that, in ideality, should be electrically isolated, but in reality, inevitably exhibit some amount of leakage. Alternatively, in such leakage-configured, NCEM-enabled fill cells, the test area may represent an overlap between two pattern-defined features that, in ideality, would be electrically isolated, but in reality, inevitably exhibit some amount of leakage. A single leakage-configured, NCEM-enabled fill cell may contain one, but preferably contains multiple test areas. In the case of a cell with multiple test areas, each of the cell's test areas is preferably wired in parallel, and each of the cell's test areas (and preferably each of its extended test areas, too) is identically or nearly identically configured.

For fill cells designed to measure, detect, or characterize electrical open circuit behavior (so-called, “open-configured, NCEM-enabled fill cells”), the test area typically represents an intended overlap, or extension, between two pattern-defined features that, in the absence of a manufacturing anomaly, would be electrically connected. (It may also represent a single-layer pattern, such as a snake.) A single open-configured, NCEM-enabled fill cell may contain one or multiple test areas. In the case of multiple test areas, each of the cell's test areas is preferably connected in series, and each of the cell's test areas (and preferably each of the extended test areas, too) is identically or nearly identically configured.

Fill cells designed to measure, detect, or characterize electrical resistance behavior (so-called, “resistance-configured, NCEM-enabled fill cells”) typically resemble open-configured cells. Like the open-configured cells, such resistance-configured cells may include a test area that represents an intended overlap, or extension, between two pattern-defined features that, in ideality, would be connected by a nearly zero-resistance path, but in reality, inevitably produce a measurable level of resistance. (Such test area may also represent a single-layer pattern, such as a snake.) A single resistance-configured, NCEM-enabled fill cell may contain one, but preferably contains multiple test areas. In the case of multiple test areas, each of the cell's test areas is preferably connected in series, and each of the cell's test areas (and preferably each of the extended test areas, too) is identically or nearly identically configured.

DOEs, in accordance with such preferred embodiments, comprise a collection of substantially similarly configured NCEM-enabled fill cells, in a plurality of variants. Within a given DOE, such similarly configured fill cells would typically all be configured to measure, detect, or characterize the same behavior (e.g., gate-to-gate, or control-element-to-control-element, shorts, for example), in the same structural configuration (e.g., tip-to-tip, as per FIG. 14, for example). In single-parameter DOEs, the differences between variants may be limited to differences in the size, shape, or position of one of the features that defines the cells' test area. In multi-parameter DOEs, the differences between variants may involve differences in two or more such parameters. And in more complex DOEs, the differences may involve other non-incremental changes (e.g., the presence or absence of certain features, or changes in nearby or underlying patterning), either alone or in combination with additional to single- or multi-parameter variations.

In the case of DOEs involving complex changes to nearby patterning, changes that lie within an expanded test area (an area that encompasses a predetermined expansion of the test area by, for example 50-200%, or more) and involve either the test area-defining layer(s) or any layers that overlap or lie immediately above or below the test area-defining layers, are preferably limited in number. Limiting the number of such changes to fewer than three, five, ten, twenty, or thirty “background pattern variants” facilitates analysis of data that the experiment produces.

Another way to characterize the degree of relevant patterning variation between DOE variants—in certain embodiments of the invention—involves the concept of a pattern similarity ratio (“PSR”), whose computation is pictorially depicted in FIGS. 37-40 (and described later herein). In accordance with this aspect of the invention, for each variant in a DOE, there should exist another variant in the DOE that has a PSR of at least 0.90 (or preferably 0.95, or more preferably 0.97) for every test-area defining layer, and at least 0.75 (or preferably 0.85, or more preferably 0.90) for each layer that lies immediately below any of the test-area defining layer(s), when the expanded test areas are defined to be at least 150-200% of the corresponding test area sizes.

Another aspect of DOEs, in accordance with the preferred embodiments, is that they include multiple instances (e.g., 3, 5, 10, 20, 500, 100, 200, or 500+) of each NCEM-enabled fill cell variant. Furthermore, such variants are preferably distributed, either regularly or irregularly, throughout the space available for instantiation of fill cells.

Accordingly, generally speaking, and without intending to be limiting, one aspect of the invention relates to ICs that include, for example: a standard cell area that includes a mix of at least one thousand logic cells and fill cells of different widths and uniform heights, placed into at least twenty adjacent rows, with at least twenty cells placed side-by-side in each row; wherein the integrated circuit includes at least a first DOE, the first DOE comprising a plurality of similarly-configured, NCEM-enabled fill cells, wherein each NCEM-enabled fill cell comprises at least: first and second elongated conductive supply rails, formed in a connector or interconnect stack, extending across the entire width of the cell, and configured for compatibility with corresponding supply rails contained in the logic cells of the standard cell region; a NCEM pad, formed in a conductive layer, the pad being at least two times larger, in at least one dimension, than a minimum size permitted by design rules; a rectangular test area defined by selected boundaries of at least first and second distinct, mask-patterned features, the test area being characterized by two dimensional parameters; a first conductive pathway that electrically connects the first mask-patterned feature to the pad; and, a second conductive pathway that electrically connects the second mask-patterned feature to a permanently or virtually grounded structure; wherein each of the similarly-configured, NCEM-enabled fill cells in the first DOE is configured to render a first selected manufacturing failure observable as an abnormal pad-to-ground leakage or conductance, detected by VC inspection of the pad; and, wherein the similarly-configured, NCEM-enabled fill cells of the first DOE include a plurality of variants, where the variants differ in terms of their respective probability of presenting an abnormal pad-to-ground leakage or resistance as a result of the first selected manufacturing failure. Such ICs may further include: a second DOE, comprising a plurality of similarly-configured, NCEM-enabled fill cells, wherein each NCEM-enabled fill cell comprises at least: first and second elongated conductive supply rails, formed in a connector or interconnect stack, extending across the entire width of the cell, and configured for compatibility with corresponding supply rails contained in the logic cells of the standard cell region; a NCEM pad, formed in a conductive layer, the pad being at least two times larger, in at least one dimension, than a minimum size permitted by design rules; a rectangular test area defined by selected boundaries of at least first and second distinct, mask-patterned features, the test area being characterized by two dimensional parameters; a first conductive pathway that electrically connects the first mask-patterned feature to the pad; and, a second conductive pathway that electrically connects the second mask-patterned feature to a permanently or virtually grounded structure; wherein each of the similarly-configured, NCEM-enabled fill cells in the second DOE is configured to render a second selected manufacturing failure observable as an abnormal pad-to-ground leakage or conductance, detected by VC inspection of the pad, and wherein the second selected manufacturing failure is different than the first selected manufacturing failure; and, wherein the similarly-configured, NCEM-enabled fill cells of the second DOE include a plurality of variants, where the variants differ in terms of their respective probability of presenting an abnormal pad-to-ground leakage or conductance as a result of the second selected manufacturing failure. The first selected manufacturing failure may involve short or leakage defects that present as abnormally high pad-to-ground conductance or leakage, and the second selected manufacturing failure may involve open or resistance defects that present as abnormally low pad-to-ground conductance or abnormally high pad-to-ground resistance. Both the first and second selected manufacturing failures may involve layers in a connector stack region of the IC. Such ICs may further include: a third DOE, comprising a plurality of similarly-configured, NCEM-enabled fill cells, wherein each NCEM-enabled fill cell comprises at least: first and second elongated conductive supply rails, formed in a connector or interconnect stack, extending across the entire width of the cell, and configured for compatibility with corresponding supply rails contained in the logic cells of the standard cell region; a NCEM pad, formed in a conductive layer, the pad being at least two times larger, in at least one dimension, than a minimum size permitted by design rules; a rectangular test area defined by selected boundaries of at least first and second distinct, mask-patterned features, the test area being characterized by two dimensional parameters; a first conductive pathway that electrically connects the first mask-patterned feature to the pad; and, a second conductive pathway that electrically connects the second mask-patterned feature to a permanently or virtually grounded structure; wherein each of the similarly-configured NCEM-enabled fill cells in the third DOE is configured to render a third selected manufacturing failure observable as an abnormal pad-to-ground leakage, conductance or resistance, detected by VC inspection of the pad, and wherein the third selected manufacturing failure is different than the first selected manufacturing failure, and is different than the second selected manufacturing failure; and, wherein the similarly-configured NCEM-enabled fill cells of the third DOE include a plurality of variants, where the variants differ in terms of their respective probability of presenting an abnormal pad-to-ground leakage, conductance or resistance as a result of the third selected manufacturing failure. Each of the first, second, and third DOEs preferably include NCEM-enabled fill cells in at least three, five, seven, or ten variants. The NCEM-enabled fill cells of the first, second, and third DOEs are preferably irregularly distributed within the standard cell area of the IC. Each variant may differ from the other(s) only in the position, size, or shape of its first or second mask-patterned feature, or only by a single dimensional parameter that characterizes their respective test areas.

Again, generally speaking, and without intending to be limiting, another aspect of the invention relates to ICs that include, for example: a standard cell area that includes a mix of at least one thousand logic cells and fill cells of different widths and uniform heights, placed into at least twenty adjacent rows, with at least twenty cells placed side-by-side in each row; wherein the IC includes at least a first DOE, the first DOE comprising a plurality of similarly-configured, NCEM-enabled fill cells, wherein each NCEM-enabled fill cell comprises at least: first and second elongated conductive supply rails, formed in a connector or interconnect stack, extending across the entire width of the cell, and configured for compatibility with corresponding supply rails contained in the logic cells of the standard cell region; a NCEM pad, formed in a conductive layer, the pad being at least two times larger, in at least one dimension, than a minimum size permitted by design rules; a rectangular test area defined by selected boundaries of first and second distinct, mask-patterned features, the test area characterized by two dimensional parameters, the test area configured to provide electrical isolation between the first and second mask-patterned features in the absence of a first selected manufacturing failure; a first conductive pathway that electrically connects the first mask-patterned feature to the pad; and, a second conductive pathway that electrically connects the second mask-patterned feature to a permanently or virtually grounded structure; wherein each of the similarly-configured, NCEM-enabled fill cells in the first DOE is configured to render a first selected manufacturing failure observable as an abnormally high pad-to-ground conductance or leakage, detected by VC inspection of the pad; and, wherein the similarly-configured, NCEM-enabled fill cells of the first DOE include a plurality of variants, where the variants differ in terms of their respective probability of presenting an abnormally high pad-to-ground conductance or leakage as a result of the first selected manufacturing failure. In each of the NCEM-enabled fill cells of the first DOE, the first and/or second distinct, mask-patterned features may each represent either a control element, or a portion thereof, and/or a portion of a control element connector or a substrate connector, and/or a portion of a control element jumper, substrate jumper, or interconnect jumper. In each of the NCEM-enabled fill cells of the first and/or second DOE(s), the first and second distinct, mask-patterned features may appear in a tip-to-tip configuration, a tip-to-side configuration, a side-to-side configuration, a diagonal configuration, or an interlayer overlap configuration.

Again, generally speaking, and without intending to be limiting, another aspect of the invention relates to ICs that include, for example: a standard cell area that includes a mix of at least one thousand logic cells and fill cells of different widths and uniform heights, placed into at least twenty adjacent rows, with at least twenty cells placed side-by-side in each row; wherein the IC includes at least a first DOE, the first DOE comprising a plurality of similarly-configured, NCEM-enabled fill cells, wherein each NCEM-enabled fill cell comprises at least: first and second elongated conductive supply rails, formed in a connector or interconnect stack, extending across the entire width of the cell, and configured for compatibility with corresponding supply rails contained in the logic cells of the standard cell region; a NCEM pad, formed in one or more conductive layer(s), the pad being at least two times larger, in at least one dimension, than a minimum size permitted by design rules; a rectangular test area defined by selected boundaries of a plurality of mask-patterned features, the test area characterized by two dimensional parameters, the plurality of mask-patterned features including at least first and second features that are electrically connected in the absence of a first manufacturing failure; a first conductive pathway that electrically connects the first mask-patterned feature to the pad; and, a second conductive pathway that electrically connects the second mask-patterned feature to a permanently or virtually grounded structure; wherein each of the similarly-configured NCEM-enabled fill cells in the first DOE is configured to render a first selected manufacturing failure observable as an abnormally high pad-to-ground conductance or leakage, detected by VC inspection of the pad; wherein the similarly-configured NCEM-enabled fill cells of the first DOE include a plurality of variants, where the variants differ in terms of their respective probability of presenting an abnormally high pad-to-ground conductance or leakage as a result of the first selected manufacturing failure; and, wherein the similarly-configured NCEM-enabled fill cells of the first DOE are selected from the list consisting of: AA-tip-to-tip-short-configured, NCEM-enabled fill cells; AACNT-tip-to-tip-short-configured, NCEM-enabled fill cells; AACNT-AA-tip-to-tip-short-configured, NCEM-enabled fill cells; TS-tip-to-tip-short-configured, NCEM-enabled fill cells; GATE-tip-to-tip-short-configured, NCEM-enabled fill cells; GATECNT-GATE-tip-to-tip-short-configured, NCEM-enabled fill cells; GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-tip-to-tip-short-configured, NCEM-enabled fill cells; M1-tip-to-tip-short-configured, NCEM-enabled fill cells; V0-tip-to-tip-short-configured, NCEM-enabled fill cells; M1-V0-tip-to-tip-short-configured, NCEM-enabled fill cells; V1-M1-tip-to-tip-short-configured, NCEM-enabled fill cells; V1-tip-to-tip-short-configured, NCEM-enabled fill cells; M2-tip-to-tip-short-configured, NCEM-enabled fill cells; M2-V1-tip-to-tip-short-configured, NCEM-enabled fill cells; V2-M2-tip-to-tip-short-configured, NCEM-enabled fill cells; M3-tip-to-tip-short-configured, NCEM-enabled fill cells; V2-tip-to-tip-short-configured, NCEM-enabled fill cells; M3-V2-tip-to-tip-short-configured, NCEM-enabled fill cells; AA-tip-to-side-short-configured, NCEM-enabled fill cells; AACNT-tip-to-side-short-configured, NCEM-enabled fill cells; AACNT-AA-tip-to-side-short-configured, NCEM-enabled fill cells; GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cells; GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cells; GATECNT-tip-to-side-short-configured, NCEM-enabled fill cells; TS-GATECNT-tip-to-side-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cells; M1-tip-to-side-short-configured, NCEM-enabled fill cells; V0-tip-to-side-short-configured, NCEM-enabled fill cells; M1-V0-tip-to-side-short-configured, NCEM-enabled fill cells; V1-M1-tip-to-side-short-configured, NCEM-enabled fill cells; V1-tip-to-side-short-configured, NCEM-enabled fill cells; M2-tip-to-side-short-configured, NCEM-enabled fill cells; M2-V1-tip-to-side-short-configured, NCEM-enabled fill cells; V2-M2-tip-to-side-short-configured, NCEM-enabled fill cells; M3-tip-to-side-short-configured, NCEM-enabled fill cells; V2-tip-to-side-short-configured, NCEM-enabled fill cells; M3-V2-tip-to-side-short-configured, NCEM-enabled fill cells; AA-side-to-side-short-configured, NCEM-enabled fill cells; AACNT-side-to-side-short-configured, NCEM-enabled fill cells; AACNT-AA-side-to-side-short-configured, NCEM-enabled fill cells; AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cells; GATE-side-to-side-short-configured, NCEM-enabled fill cells; GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cells; TS-GATE-side-to-side-short-configured, NCEM-enabled fill cells; GATECNT-side-to-side-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cells; M1-side-to-side-short-configured, NCEM-enabled fill cells; V0-side-to-side-short-configured, NCEM-enabled fill cells; M1-V0-side-to-side-short-configured, NCEM-enabled fill cells; V1-M1-side-to-side-short-configured, NCEM-enabled fill cells; V1-side-to-side-short-configured, NCEM-enabled fill cells; M2-side-to-side-short-configured, NCEM-enabled fill cells; M2-V1-side-to-side-short-configured, NCEM-enabled fill cells; V2-M2-side-to-side-short-configured, NCEM-enabled fill cells; M3-side-to-side-short-configured, NCEM-enabled fill cells; V2-side-to-side-short-configured, NCEM-enabled fill cells; M3-V2-side-to-side-short-configured, NCEM-enabled fill cells; AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; AACNT-AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATE-AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATE-TS-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATECNT-GATE-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATECNT-AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATECNT-TS-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-TS-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-GATE-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-GATECNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M1-AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M1-GATECNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M1-V0-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V1-M1-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V1-V0-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M2-M1-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M2-V1-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V2-V1-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V2-M2-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M3-M2-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M3-V2-L-shape-interlayer-short-configured, NCEM-enabled fill cells; AA-diagonal-short-configured, NCEM-enabled fill cells; TS-diagonal-short-configured, NCEM-enabled fill cells; AACNT-diagonal-short-configured, NCEM-enabled fill cells; AACNT-AA-diagonal-short-configured, NCEM-enabled fill cells; GATE-diagonal-short-configured, NCEM-enabled fill cells; GATE-AACNT-diagonal-short-configured, NCEM-enabled fill cells; GATECNT-GATE-diagonal-short-configured, NCEM-enabled fill cells; GATECNT-diagonal-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cells; M1-diagonal-short-configured, NCEM-enabled fill cells; V0-diagonal-short-configured, NCEM-enabled fill cells; M1-V0-diagonal-short-configured, NCEM-enabled fill cells; V1-M1-diagonal-short-configured, NCEM-enabled fill cells; V1-diagonal-short-configured, NCEM-enabled fill cells; M2-diagonal-short-configured, NCEM-enabled fill cells; M2-V1-diagonal-short-configured, NCEM-enabled fill cells; M3-diagonal-short-configured, NCEM-enabled fill cells; V2-M2-diagonal-short-configured, NCEM-enabled fill cells; V2-diagonal-short-configured, NCEM-enabled fill cells; M3-V2-diagonal-short-configured, NCEM-enabled fill cells; AA-corner-short-configured, NCEM-enabled fill cells; AACNT-corner-short-configured, NCEM-enabled fill cells; AACNT-AA-corner-short-configured, NCEM-enabled fill cells; GATE-corner-short-configured, NCEM-enabled fill cells; GATECNT-GATE-corner-short-configured, NCEM-enabled fill cells; GATECNT-TS-corner-short-configured, NCEM-enabled fill cells; GATECNT-corner-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-corner-short-configured, NCEM-enabled fill cells; M1-corner-short-configured, NCEM-enabled fill cells; V0-corner-short-configured, NCEM-enabled fill cells; M1-V0-corner-short-configured, NCEM-enabled fill cells; V1-M1-corner-short-configured, NCEM-enabled fill cells; V1-corner-short-configured, NCEM-enabled fill cells; M2-corner-short-configured, NCEM-enabled fill cells; M2-V1-corner-short-configured, NCEM-enabled fill cells; M3-corner-short-configured, NCEM-enabled fill cells; V2-M2-corner-short-configured, NCEM-enabled fill cells; V2-corner-short-configured, NCEM-enabled fill cells; M3-V2-corner-short-configured, NCEM-enabled fill cells; GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cells; GATE-TS-interlayer-overlap-short-configured, NCEM-enabled fill cells; GATE-AACNT-interlayer-overlap-short-configured, NCEM-enabled fill cells; GATECNT-TS-interlayer-overlap-short-configured, NCEM-enabled fill cells; GATECNT-AA-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-AA-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-AACNT-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-TS-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cells; M1-GATECNT-interlayer-overlap-short-configured, NCEM-enabled fill cells; M1-AACNT-interlayer-overlap-short-configured, NCEM-enabled fill cells; V1-V0-interlayer-overlap-short-configured, NCEM-enabled fill cells; M2-M1-interlayer-overlap-short-configured, NCEM-enabled fill cells; V2-V1-interlayer-overlap-short-configured, NCEM-enabled fill cells; M3-M2-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-GATECNT-via-chamfer-short-configured, NCEM-enabled fill cells; V0-AACNT-via-chamfer-short-configured, NCEM-enabled fill cells; V1-M1-via-chamfer-short-configured, NCEM-enabled fill cells; V2-M2-via-chamfer-short-configured, NCEM-enabled fill cells; V0-merged-via-short-configured, NCEM-enabled fill cells; V1-merged-via-short-configured, NCEM-enabled fill cells; and, V2-merged-via-short-configured, NCEM-enabled fill cells; a second DOE, comprising a plurality of similarly-configured, NCEM-enabled fill cells, wherein each NCEM-enabled fill cell comprises at least: first and second elongated conductive supply rails, formed in a connector or interconnect stack, extending across the entire width of the cell, and configured for compatibility with corresponding supply rails contained in the logic cells of the standard cell region; a NCEM pad, formed in a conductive layer, the pad being at least two times larger, in at least one dimension, than a minimum size permitted by design rules; a rectangular test area defined by selected boundaries of at least first and second distinct, mask-patterned features, the test area being characterized by two dimensional parameters; a first conductive pathway that electrically connects the first mask-patterned feature to the pad; and, a second conductive pathway that electrically connects the second mask-patterned feature to a permanently or virtually grounded structure; wherein each of the similarly-configured, NCEM-enabled fill cells in the second DOE is configured to render a second selected manufacturing failure observable as an abnormally low pad-to-ground conductance or abnormally high pad-to-ground resistance, detected by VC inspection of the pad; and, wherein the similarly-configured, NCEM-enabled fill cells of the second DOE include a plurality of variants, where the variants differ in terms of their respective probability of presenting an abnormally low pad-to-ground conductance or abnormally high pad-to-ground resistance as a result of the second selected manufacturing failure; and, wherein the similarly-configured NCEM-enabled fill cells of the second DOE are selected from the list consisting of: AA-snake-open-configured, NCEM-enabled fill cells; TS-snake-open-configured, NCEM-enabled fill cells; AACNT-snake-open-configured, NCEM-enabled fill cells; GATE-snake-open-configured, NCEM-enabled fill cells; GATECNT-snake-open-configured, NCEM-enabled fill cells; V0-snake-open-configured, NCEM-enabled fill cells; M1-snake-open-configured, NCEM-enabled fill cells; V1-snake-open-configured, NCEM-enabled fill cells; M2-snake-open-configured, NCEM-enabled fill cells; V2-snake-open-configured, NCEM-enabled fill cells; M3-snake-open-configured, NCEM-enabled fill cells; AA-stitch-open-configured, NCEM-enabled fill cells; TS-stitch-open-configured, NCEM-enabled fill cells; AACNT-stitch-open-configured, NCEM-enabled fill cells; GATECNT-stitch-open-configured, NCEM-enabled fill cells; V0-stitch-open-configured, NCEM-enabled fill cells; M1-stitch-open-configured, NCEM-enabled fill cells; V1-stitch-open-configured, NCEM-enabled fill cells; M2-stitch-open-configured, NCEM-enabled fill cells; V2-stitch-open-configured, NCEM-enabled fill cells; M3-stitch-open-configured, NCEM-enabled fill cells; AACNT-TS-via-open-configured, NCEM-enabled fill cells; AACNT-AA-via-open-configured, NCEM-enabled fill cells; TS-AA-via-open-configured, NCEM-enabled fill cells; GATECNT-GATE-via-open, NCEM-enabled fill cells; V0-GATECNT-via-open-configured, NCEM-enabled fill cells; V0-AA-via-open-configured, NCEM-enabled fill cells; V0-TS-via-open-configured, NCEM-enabled fill cells; V0-AACNT-via-open-configured, NCEM-enabled fill cells; V0-GATE-via-open-configured, NCEM-enabled fill cells; V0-via-open-configured, NCEM-enabled fill cells; M1-V0-via-open-configured, NCEM-enabled fill cells; V1-M1-via-open-configured, NCEM-enabled fill cells; V1-M2-via-open-configured, NCEM-enabled fill cells; M1-GATECNT-via-open-configured, NCEM-enabled fill cells; M1-AANCT-via-open-configured, NCEM-enabled fill cells; V2-M2-via-open-configured, NCEM-enabled fill cells; V2-M3-via-open-configured, NCEM-enabled fill cells; M1-metal-island-open-configured, NCEM-enabled fill cells; M2-metal-island-open-configured, NCEM-enabled fill cells; M3-metal-island-open-configured, NCEM-enabled fill cells; V0-merged-via-open-configured, NCEM-enabled fill cells; V0-AACNT-merged-via-open-configured, NCEM-enabled fill cells; V0-GATECNT-merged-via-open-configured, NCEM-enabled fill cells; V1-merged-via-open-configured, NCEM-enabled fill cells; V2-merged-via-open-configured, NCEM-enabled fill cells; V1-M1-merged-via-open-configured, NCEM-enabled fill cells; V2-M2-merged-via-open-configured, NCEM-enabled fill cells.

Again, generally speaking, and without intending to be limiting, another aspect of the invention relates methods for making ICs that include, for example: (a) performing initial processing steps on a semiconductor wafer, the initial processing steps including: patterning a standard cell area that includes a mix of at least one thousand logic cells and fill cells of different widths and uniform heights, placed into at least twenty adjacent rows, with at least twenty cells placed side-by-side in each row; and, patterning a first DOE by instantiating a plurality of similarly-configured, NCEM-enabled fill cells in at least two variants, the NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area, each of the cells in the first DOE configured to enable evaluation of a first manufacturing failure by voltage contrast examination of a NCEM of a pad contained in the cell, the variants exhibiting different NCEM sensitivity to the first manufacturing failure; (b) determining a presence or absence of the first manufacturing failure by: performing a voltage contrast examination of NCEM-enabled fill cells in the first DOE; and, determining whether NCEMs of pads contained in the NCEM-enabled fill cells of the first DOE represent instance(s) of the first manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of the first manufacturing failure; and, (c) based, at least in part, on results from step (b), selectively performing additional processing, metrology or inspection steps on the wafer, and/or on other wafer(s) currently being manufactured using a process flow(s) relevant to the observed first manufacturing failure. Step (a) may further involve: patterning a second DOE by instantiating a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, the NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area and fill cells in the first DOE, each of the cells in the second DOE configured to enable evaluation of a second manufacturing failure, different from the first manufacturing failure, by voltage contrast examination of a NCEM of a pad contained in the cell, the variants exhibiting different NCEM sensitivity to the second manufacturing failure; and wherein step (b) further comprises: performing a voltage contrast examination of NCEM-enabled fill cells in the second DOE; and, determining whether NCEMs of pads contained in the NCEM-enabled fill cells of the second DOE represent instance(s) of the second manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of the second manufacturing failure. Step (a) may further involve: patterning a third DOE by instantiating a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, the NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area and fill cells in the first and second DOEs, each of the cells in the third DOE configured to enable evaluation of a third manufacturing failure, different from the first and second manufacturing failures, by voltage contrast examination of a NCEM of a pad contained in the cell, the variants exhibiting different NCEM sensitivity to the third manufacturing failure; and wherein step (b) further comprises: performing a voltage contrast examination of NCEM-enabled fill cells in the third DOE; and, determining whether NCEMs of pads contained in the NCEM-enabled fill cells of the third DOE represent instance(s) of the third manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of the third manufacturing failure. At least one of the first, second, or third manufacturing failures preferably involves unintended shorts or leakages, and at least one of the first, second, or third manufacturing failures preferably involves unintended opens or excessive resistances. Instantiating the NCEM-enabled fill cells preferably comprises distributing the cells irregularly within the standard cell area. Within each of the DOEs, each variant may differ from the other(s) only in the position, size, or shape of a single mask-patterned feature. At least one of the first, second, or third manufacturing failures may involve unintended shorts between structures in a tip-to-tip configuration, or unintended shorts between structures in a tip-to-side configuration, or unintended shorts between structures in a side-to-side configuration, or unintended shorts between structures in a diagonal configuration, or unintended shorts between structures in an interlayer overlap configuration, or unintended interlayer shorts or leakages between structures in a corner configuration, unintended opens in snake-shaped structures, unintended opens in stitched structures, unintended opens in via-connected structures. Each of the first, second, and third DOEs preferably includes NCEM-enabled fill cells in at least three, five, seven, 11, 21, or more variants. Each of the first, second, and third DOEs may consist of cells selected from the list of: AA-tip-to-tip-short-configured, NCEM-enabled fill cells; AACNT-tip-to-tip-short-configured, NCEM-enabled fill cells; AACNT-AA-tip-to-tip-short-configured, NCEM-enabled fill cells; TS-tip-to-tip-short-configured, NCEM-enabled fill cells; GATE-tip-to-tip-short-configured, NCEM-enabled fill cells; GATECNT-GATE-tip-to-tip-short-configured, NCEM-enabled fill cells; GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-tip-to-tip-short-configured, NCEM-enabled fill cells; M1-tip-to-tip-short-configured, NCEM-enabled fill cells; V0-tip-to-tip-short-configured, NCEM-enabled fill cells; M1-V0-tip-to-tip-short-configured, NCEM-enabled fill cells; V1-M1-tip-to-tip-short-configured, NCEM-enabled fill cells; V1-tip-to-tip-short-configured, NCEM-enabled fill cells; M2-tip-to-tip-short-configured, NCEM-enabled fill cells; M2-V1-tip-to-tip-short-configured, NCEM-enabled fill cells; V2-M2-tip-to-tip-short-configured, NCEM-enabled fill cells; M3-tip-to-tip-short-configured, NCEM-enabled fill cells; V2-tip-to-tip-short-configured, NCEM-enabled fill cells; M3-V2-tip-to-tip-short-configured, NCEM-enabled fill cells; AA-tip-to-side-short-configured, NCEM-enabled fill cells; AACNT-tip-to-side-short-configured, NCEM-enabled fill cells; AACNT-AA-tip-to-side-short-configured, NCEM-enabled fill cells; GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cells; GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cells; GATECNT-tip-to-side-short-configured, NCEM-enabled fill cells; TS-GATECNT-tip-to-side-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cells; M1-tip-to-side-short-configured, NCEM-enabled fill cells; V0-tip-to-side-short-configured, NCEM-enabled fill cells; M1-V0-tip-to-side-short-configured, NCEM-enabled fill cells; V1-M1-tip-to-side-short-configured, NCEM-enabled fill cells; V1-tip-to-side-short-configured, NCEM-enabled fill cells; M2-tip-to-side-short-configured, NCEM-enabled fill cells; M2-V1-tip-to-side-short-configured, NCEM-enabled fill cells; V2-M2-tip-to-side-short-configured, NCEM-enabled fill cells; M3-tip-to-side-short-configured, NCEM-enabled fill cells; V2-tip-to-side-short-configured, NCEM-enabled fill cells; M3-V2-tip-to-side-short-configured, NCEM-enabled fill cells; AA-side-to-side-short-configured, NCEM-enabled fill cells; AACNT-side-to-side-short-configured, NCEM-enabled fill cells; AACNT-AA-side-to-side-short-configured, NCEM-enabled fill cells; AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cells; GATE-side-to-side-short-configured, NCEM-enabled fill cells; GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cells; TS-GATE-side-to-side-short-configured, NCEM-enabled fill cells; GATECNT-side-to-side-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cells; M1-side-to-side-short-configured, NCEM-enabled fill cells; V0-side-to-side-short-configured, NCEM-enabled fill cells; M1-V0-side-to-side-short-configured, NCEM-enabled fill cells; V1-M1-side-to-side-short-configured, NCEM-enabled fill cells; V1-side-to-side-short-configured, NCEM-enabled fill cells; M2-side-to-side-short-configured, NCEM-enabled fill cells; M2-V1-side-to-side-short-configured, NCEM-enabled fill cells; V2-M2-side-to-side-short-configured, NCEM-enabled fill cells; M3-side-to-side-short-configured, NCEM-enabled fill cells; V2-side-to-side-short-configured, NCEM-enabled fill cells; M3-V2-side-to-side-short-configured, NCEM-enabled fill cells; AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; AACNT-AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATE-AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATE-TS-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATECNT-GATE-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATECNT-AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATECNT-TS-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-TS-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-GATE-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-GATECNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M1-AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M1-GATECNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M1-V0-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V1-M1-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V1-V0-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M2-M1-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M2-V1-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V2-V1-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V2-M2-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M3-M2-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M3-V2-L-shape-interlayer-short-configured, NCEM-enabled fill cells; AA-diagonal-short-configured, NCEM-enabled fill cells; TS-diagonal-short-configured, NCEM-enabled fill cells; AACNT-diagonal-short-configured, NCEM-enabled fill cells; AACNT-AA-diagonal-short-configured, NCEM-enabled fill cells; GATE-diagonal-short-configured, NCEM-enabled fill cells; GATE-AACNT-diagonal-short-configured, NCEM-enabled fill cells; GATECNT-GATE-diagonal-short-configured, NCEM-enabled fill cells; GATECNT-diagonal-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cells; M1-diagonal-short-configured, NCEM-enabled fill cells; V0-diagonal-short-configured, NCEM-enabled fill cells; M1-V0-diagonal-short-configured, NCEM-enabled fill cells; V1-M1-diagonal-short-configured, NCEM-enabled fill cells; V1-diagonal-short-configured, NCEM-enabled fill cells; M2-diagonal-short-configured, NCEM-enabled fill cells; M2-V1-diagonal-short-configured, NCEM-enabled fill cells; M3-diagonal-short-configured, NCEM-enabled fill cells; V2-M2-diagonal-short-configured, NCEM-enabled fill cells; V2-diagonal-short-configured, NCEM-enabled fill cells; M3-V2-diagonal-short-configured, NCEM-enabled fill cells; AA-corner-short-configured, NCEM-enabled fill cells; AACNT-corner-short-configured, NCEM-enabled fill cells; AACNT-AA-corner-short-configured, NCEM-enabled fill cells; GATE-corner-short-configured, NCEM-enabled fill cells; GATECNT-GATE-corner-short-configured, NCEM-enabled fill cells; GATECNT-TS-corner-short-configured, NCEM-enabled fill cells; GATECNT-corner-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-corner-short-configured, NCEM-enabled fill cells; M1-corner-short-configured, NCEM-enabled fill cells; V0-corner-short-configured, NCEM-enabled fill cells; M1-V0-corner-short-configured, NCEM-enabled fill cells; V1-M1-corner-short-configured, NCEM-enabled fill cells; V1-corner-short-configured, NCEM-enabled fill cells; M2-corner-short-configured, NCEM-enabled fill cells; M2-V1-corner-short-configured, NCEM-enabled fill cells; M3-corner-short-configured, NCEM-enabled fill cells; V2-M2-corner-short-configured, NCEM-enabled fill cells; V2-corner-short-configured, NCEM-enabled fill cells; M3-V2-corner-short-configured, NCEM-enabled fill cells; GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cells; GATE-AACNT-interlayer-overlap-short-configured, NCEM-enabled fill cells; GATE-TS-interlayer-overlap-short-configured, NCEM-enabled fill cells; GATECNT-TS-interlayer-overlap-short-configured, NCEM-enabled fill cells; GATECNT-AA-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-AA-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-AACNT-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-TS-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cells; M1-GATECNT-interlayer-overlap-short-configured, NCEM-enabled fill cells; M1-AACNT-interlayer-overlap-short-configured, NCEM-enabled fill cells; V1-V0-interlayer-overlap-short-configured, NCEM-enabled fill cells; M2-M1-interlayer-overlap-short-configured, NCEM-enabled fill cells; V2-V1-interlayer-overlap-short-configured, NCEM-enabled fill cells; M3-M2-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-GATECNT-via-chamfer-short-configured, NCEM-enabled fill cells; V0-AACNT-via-chamfer-short-configured, NCEM-enabled fill cells; V1-M1-via-chamfer-short-configured, NCEM-enabled fill cells; V2-M2-via-chamfer-short-configured, NCEM-enabled fill cells; V0-merged-via-short-configured, NCEM-enabled fill cells; V1-merged-via-short-configured, NCEM-enabled fill cells; V2-merged-via-short-configured, NCEM-enabled fill cells; AA-snake-open-configured, NCEM-enabled fill cells; TS-snake-open-configured, NCEM-enabled fill cells; AACNT-snake-open-configured, NCEM-enabled fill cells; GATE-snake-open-configured, NCEM-enabled fill cells; GATECNT-snake-open-configured, NCEM-enabled fill cells; V0-snake-open-configured, NCEM-enabled fill cells; M1-snake-open-configured, NCEM-enabled fill cells; V1-snake-open-configured, NCEM-enabled fill cells; M2-snake-open-configured, NCEM-enabled fill cells; V2-snake-open-configured, NCEM-enabled fill cells; M3-snake-open-configured, NCEM-enabled fill cells; AA-stitch-open-configured, NCEM-enabled fill cells; TS-stitch-open-configured, NCEM-enabled fill cells; AACNT-stitch-open-configured, NCEM-enabled fill cells; GATECNT-stitch-open-configured, NCEM-enabled fill cells; V0-stitch-open-configured, NCEM-enabled fill cells; M1-stitch-open-configured, NCEM-enabled fill cells; V1-stitch-open-configured, NCEM-enabled fill cells; M2-stitch-open-configured, NCEM-enabled fill cells; V2-stitch-open-configured, NCEM-enabled fill cells; M3-stitch-open-configured, NCEM-enabled fill cells; AACNT-TS-via-open-configured, NCEM-enabled fill cells; AACNT-AA-via-open-configured, NCEM-enabled fill cells; TS-AA-via-open-configured, NCEM-enabled fill cells; GATECNT-GATE-via-open, NCEM-enabled fill cells; V0-GATECNT-via-open-configured, NCEM-enabled fill cells; V0-AA-via-open-configured, NCEM-enabled fill cells; V0-TS-via-open-configured, NCEM-enabled fill cells; V0-AACNT-via-open-configured, NCEM-enabled fill cells; V0-GATE-via-open-configured, NCEM-enabled fill cells; V0-via-open-configured, NCEM-enabled fill cells; M1-V0-via-open-configured, NCEM-enabled fill cells; V1-M1-via-open-configured, NCEM-enabled fill cells; V1-M2-via-open-configured, NCEM-enabled fill cells; M1-GATECNT-via-open-configured, NCEM-enabled fill cells; M1-AANCT-via-open-configured, NCEM-enabled fill cells; V2-M2-via-open-configured, NCEM-enabled fill cells; V2-M3-via-open-configured, NCEM-enabled fill cells; M1-metal-island-open-configured, NCEM-enabled fill cells; M2-metal-island-open-configured, NCEM-enabled fill cells; M3-metal-island-open-configured, NCEM-enabled fill cells; V0-merged-via-open-configured, NCEM-enabled fill cells; V0-AACNT-merged-via-open-configured, NCEM-enabled fill cells; V0-GATECNT-merged-via-open-configured, NCEM-enabled fill cells; V1-merged-via-open-configured, NCEM-enabled fill cells; V2-merged-via-open-configured, NCEM-enabled fill cells; V1-M1-merged-via-open-configured, NCEM-enabled fill cells; V2-M2-merged-via-open-configured, NCEM-enabled fill cells.

Again, generally speaking, and without intending to be limiting, another aspect of the invention relates to methods for making ICs that include, for example: (a) performing initial processing steps on a first semiconductor wafer, the initial processing steps including, at least: patterning a first DOE by instantiating a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, the NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell library, each of the cells in the first DOE configured to enable evaluation of a first manufacturing failure by voltage contrast examination of a NCEM of a pad contained in the cell, the variants exhibiting different NCEM sensitivity to the first manufacturing failure; patterning a second DOE by instantiating a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, the NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell library and fill cells in the first DOE, each of the cells in the second DOE configured to enable evaluation of a second manufacturing failure, different from the first manufacturing failure, by voltage contrast examination of a NCEM of a pad contained in the cell, the variants exhibiting different NCEM sensitivity to the second manufacturing failure; and, patterning a third DOE by instantiating a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, the NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell library and fill cells in the first and second DOEs, each of the cells in the third DOE configured to enable evaluation of a third manufacturing failure, different from the first and second manufacturing failures, by voltage contrast examination of a NCEM of a pad contained in the cell, the variants exhibiting different NCEM sensitivity to the third manufacturing failure; and, (b) determining a presence or absence of the first, second, and third manufacturing failures by: performing a voltage contrast examination of NCEM-enabled fill cells in the first DOE; determining whether NCEMs of pads contained in the NCEM-enabled fill cells of the first DOE represent instance(s) of the first manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of the first manufacturing failure; performing a voltage contrast examination of NCEM-enabled fill cells in the second DOE; determining whether NCEMs of pads contained in the NCEM-enabled fill cells of the second DOE represent instance(s) of the second manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of the second manufacturing failure; performing a voltage contrast examination of NCEM-enabled fill cells in the third DOE; and, determining whether NCEMs of pads contained in the NCEM-enabled fill cells of the third DOE represent instance(s) of the third manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of the third manufacturing failure; and, (c) based, at least in part, on results from step (b), fabricating product masks that include: a standard cell area that includes a mix of at least one thousand logic cells, from the standard cell library, and fill cells of different widths and uniform heights, placed into at least twenty adjacent rows, with at least twenty cells placed side-by-side in each row; and, a fourth DOE that includes a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, the NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area, each of the cells in the fourth DOE configured to enable evaluation of the first manufacturing failure by voltage contrast examination of a NCEM of a pad contained in the cell, the variants exhibiting different NCEM sensitivity to the first manufacturing failure; and, the product masks not including any DOEs configured to enable evaluation of the second or third manufacturing failures; and, (d) using the product masks, performing initial processing steps on a product wafer, the initial processing steps including: patterning the standard cell area; and, patterning the fourth DOE; (e) determining a presence or absence of the first manufacturing failure on the product wafer by: performing a voltage contrast examination of NCEM-enabled fill cells in the fourth DOE; and, determining whether NCEMs of pads contained in the NCEM-enabled fill cells of the fourth DOE represent instance(s) of the first manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of the first manufacturing failure; and, (f) based, at least in part, on results from step (e), selectively performing additional processing, metrology or inspection steps on the product wafer, and/or on other product wafer(s) currently being manufactured using a process flow(s) relevant to the observed first manufacturing failure.

Again, generally speaking, and without intending to be limiting, another aspect of the invention relates to methods for making ICs that include, for example: (a) performing initial processing steps on an initial product wafer, the initial processing steps including, at least: patterning a standard cell area that includes a mix of at least one thousand logic cells and fill cells of different widths and uniform heights, placed into at least twenty adjacent rows, with at least twenty cells placed side-by-side in each row; and, patterning, within the standard cell area, a first DOE by instantiating a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, the NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area, each of the cells in the first DOE configured to enable evaluation of a first manufacturing failure by voltage contrast examination of a NCEM of a pad contained in the cell, the variants exhibiting different NCEM sensitivity to the first manufacturing failure; patterning a second DOE by instantiating a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, the NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area and fill cells in the first DOE, each of the cells in the second DOE configured to enable evaluation of a second manufacturing failure, different from the first manufacturing failure, by voltage contrast examination of a NCEM of a pad contained in the cell, the variants exhibiting different NCEM sensitivity to the second manufacturing failure; and, (b) determining a presence or absence of the first and second manufacturing failures on the initial product wafer by: performing a voltage contrast examination of NCEM-enabled fill cells in the first DOE; determining whether NCEMs of pads contained in the NCEM-enabled fill cells of the first DOE represent instance(s) of the first manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of the first manufacturing failure; performing a voltage contrast examination of NCEM-enabled fill cells in the second DOE; and, determining whether NCEMs of pads contained in the NCEM-enabled fill cells of the second DOE represent instance(s) of the second manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of the second manufacturing failure; and, (c) based, at least in part, on results from step (b), fabricating final product masks that include: a standard cell area that includes a mix of at least one thousand logic cells and fill cells of different widths and uniform heights, placed into at least twenty adjacent rows, with at least twenty cells placed side-by-side in each row; and, a third DOE that includes a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, the NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area, each of the cells in the third DOE configured to enable evaluation of the first manufacturing failure by voltage contrast examination of a NCEM of a pad contained in the cell, the variants exhibiting different NCEM sensitivity to the first manufacturing failure; the final product masks not including any DOEs configured to enable evaluation of the second manufacturing failure; and, (d) using the final product masks, performing initial processing steps on a final product wafer, the initial processing steps including: patterning the standard cell area; and, patterning the third DOE; and, (e) determining a presence or absence of the first manufacturing failure on the final product wafer by: performing a voltage contrast examination of NCEM-enabled fill cells in the third DOE; and, determining whether NCEMs of pads contained in the NCEM-enabled fill cells of the third DOE represent instance(s) of the first manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of the first manufacturing failure; and, (f) based, at least in part, on results from step (e), selectively performing additional processing, metrology or inspection steps on the final product wafer, and/or on other product wafer(s) currently being manufactured using a process flow(s) relevant to the observed first manufacturing failure.

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of tip-to-tip shorts, including but not limited to:

-   -   means/steps for enabling NC detection of AA tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, 43, and 1298-1326 for corresponding         § 112(f) structure/acts];     -   means/steps for enabling NC detection of AACNT tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, 43, and 1327-1405 for corresponding         § 112(f) structure/acts];     -   means/steps for enabling NC detection of TS tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT-AA tip-to-tip         shorts [see FIGS. 10-11, 14-15, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATE tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, 43, and 1413-1461 for corresponding         § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE tip-to-tip         shorts [see FIGS. 10-11, 14-15, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT tip-to-tip         shorts [see FIGS. 10-11, 14-15, 41, 43, and 1462-1548 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT         tip-to-tip shorts [see FIGS. 10-11, 14-15, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1 tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, 43, and 1549-1556 for corresponding         § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0 tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1-V0 tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1-M1 tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1 tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2 tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2-M2 tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2-V1 tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M3 tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3-V2 tip-to-tip shorts         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of tip-to-side shorts, including but not limited to:

-   -   means/steps for enabling NC detection of AA tip-to-side shorts         [see FIGS. 10-11, 16, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT tip-to-side         shorts [see FIGS. 10-11, 16, 41, 43, and 45 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of AACNT-AA tip-to-side         shorts [see FIGS. 10-11, 16, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATE-AA tip-to-side         shorts [see FIGS. 10-11, 16, 41, 43, 49, 50, and 1084-1119 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of TS-GATECNT tip-to-side         shorts [see FIGS. 10-11, 16, 41, 43, and 1239-1263 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE         tip-to-side shorts [see FIGS. 10-11, 16, 41, 43, and 1201-1238         for corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT tip-to-side         shorts [see FIGS. 10-11, 16, 41, 43, and 1120-1149 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT         tip-to-side shorts [see FIGS. 10-11, 16, 41, 43, 1150-1188 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1 tip-to-side shorts         [see FIGS. 10-11, 16, 41, 43, and 1264-1297 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0 tip-to-side shorts         [see FIGS. 10-11, 16, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1-V0 tip-to-side         shorts [see FIGS. 10-11, 16, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M1 tip-to-side         shorts [see FIGS. 10-11, 16, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1 tip-to-side shorts         [see FIGS. 10-11, 16, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2-V1 tip-to-side         shorts [see FIGS. 10-11, 16, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M2 tip-to-side shorts         [see FIGS. 10-11, 16, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2-M2 tip-to-side         shorts [see FIGS. 10-11, 16, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M3 tip-to-side shorts         [see FIGS. 10-11, 16, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 tip-to-side shorts         [see FIGS. 10-11, 16, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3-V2 tip-to-side         shorts [see FIGS. 10-11, 16, 41, and 43 for corresponding §         112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of side-to-side shorts, including but not limited to:

-   -   means/steps for enabling NC detection of AA side-to-side shorts         [see FIGS. 10-11, 17, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT side-to-side         shorts [see FIGS. 10-11, 17, 41, 43, and 786-804 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of AACNT-AA side-to-side         shorts [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATE side-to-side         shorts [see FIGS. 10-11, 17, 41, 43, and 833-859 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE         side-to-side shorts [see FIGS. 10-11, 17, 41, 43, and 886-903         for corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT side-to-side         shorts [see FIGS. 10-11, 17, 41, 43, and 860-872 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT         side-to-side shorts [see FIGS. 10-11, 17, 41, 43, 47A-C, and         873-885 for corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1 side-to-side shorts         [see FIGS. 10-11, 17, 41, 43, and 904-928 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0 side-to-side shorts         [see FIGS. 10-11, 17, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1-V0 side-to-side         shorts [see FIGS. 10-11, 17, 41, 43, and 929-936 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M1 side-to-side         shorts [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1 side-to-side shorts         [see FIGS. 10-11, 17, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2-V1 side-to-side         shorts [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M2 side-to-side shorts         [see FIGS. 10-11, 17, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2-M2 side-to-side         shorts [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M3 side-to-side shorts         [see FIGS. 10-11, 17, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 side-to-side shorts         [see FIGS. 10-11, 17, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3-V2 side-to-side         shorts [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of L-shape interlayer shorts, including but not limited to:

-   -   means/steps for enabling NC detection of AA L-shape interlayer         shorts [see FIGS. 10-11, 18-22, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of AACNT-L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of AACNT-AA-L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATE-AA-L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATE-TS L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE-L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AA L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATE-TS L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT-L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AA L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-TS L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AACNT L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-GATE L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-GATECNT L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1-AACNT L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1-GATECNT L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1-V0-L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M1-L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V1-V0 L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M2-V1-L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V2-V1 L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V2-M2 L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M3-M2 L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M3-V2 L-shape         interlayer shorts [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of diagonal shorts, including but not limited to:

-   -   means/steps for enabling NC detection of AA diagonal shorts [see         FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of TS diagonal shorts [see         FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT diagonal shorts         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT-AA diagonal         shorts [see FIGS. 10-11, 23, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATE diagonal shorts         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of GATE-AACNT diagonal         shorts [see FIGS. 10-11, 23, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE diagonal         shorts [see FIGS. 10-11, 23, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT diagonal shorts         [see FIGS. 10-11, 23, 41, 43, and 495-554 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT diagonal         shorts [see FIGS. 10-11, 23, 41, 43, and 555-632 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1 diagonal shorts [see         FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V0 diagonal shorts [see         FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1-V0 diagonal shorts         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1-M1 diagonal shorts         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1 diagonal shorts [see         FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2 diagonal shorts [see         FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2-V1 diagonal shorts         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M3 diagonal shorts [see         FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2-M2 diagonal shorts         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 diagonal shorts [see         FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3-V2 diagonal shorts         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of corner shorts, including but not limited to:

-   -   means/steps for enabling NC detection of AA corner shorts [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT corner shorts         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT-AA corner shorts         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of GATE corner shorts [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE corner         shorts [see FIGS. 10-11, 24-26, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-TS corner         shorts [see FIGS. 10-11, 24-26, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT corner shorts         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of GATECNT-AA corner         shorts [see FIGS. 10-11, 24-26, 41, 43, and 263-286 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT corner         shorts [see FIGS. 10-11, 24-26, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M1 corner shorts [see         FIGS. 10-11, 24-26, 41, 43, and 416-494 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0 corner shorts [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1-V0 corner shorts         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1-M1 corner shorts         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1 corner shorts [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2 corner shorts [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2-V1 corner shorts         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M3 corner shorts [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2-M2 corner shorts         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 corner shorts [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3-V2 corner shorts         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of interlayer-overlap shorts, including but not limited to:

-   -   means/steps for enabling NC detection of GATE-AA interlayer         overlap shorts [see FIGS. 10-11, 27, 41, 43, and 692-734 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATE-AACNT interlayer         overlap shorts [see FIGS. 10-11, 27, 41, 43, and 633-691 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATE-TS interlayer         overlap shorts [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-TS interlayer         overlap shorts [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AA interlayer         overlap shorts [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AA interlayer         overlap shorts [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AACNT interlayer         overlap shorts [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-TS interlayer         overlap shorts [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-GATE interlayer         overlap shorts [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1-GATECNT interlayer         overlap shorts [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1-AACNT interlayer         overlap shorts [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V1-V0 interlayer         overlap shorts [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of         M2-M1-interlayer-overlap shorts [see FIGS. 10-11, 27, 41, and 43         for corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of         V2-V1-interlayer-overlap shorts [see FIGS. 10-11, 27, 41, and 43         for corresponding § 112(f) structure/acts]; and,     -   means/steps for enabling NC detection of         M3-M2-interlayer-overlap shorts [see FIGS. 10-11, 27, 41, and 43         for corresponding § 112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of via-chamfer shorts, including but not limited to:

-   -   means/steps for enabling NC detection of V0-GATECNT via chamfer         shorts [see FIGS. 10-11, 28, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AACNT via chamfer         shorts [see FIGS. 10-11, 28, 41, 43, and 52-256 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M1 via chamfer         shorts [see FIGS. 10-11, 28, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V2-M2 via chamfer         shorts [see FIGS. 10-11, 28, 41, and 43 for corresponding §         112(f) structure/acts]; and,     -   means/step for enabling NC detection of V3-M3 via chamfer shorts         [see FIGS. 10-11, 28, 41, 43, and 257-262 for corresponding §         112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of merged-via shorts, including but not limited to:

-   -   means/steps for enabling NC detection of V0 merged via shorts         [see FIGS. 10-11, 29, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1 merged via shorts         [see FIGS. 10-11, 29, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of V2 merged via shorts         [see FIGS. 10-11, 29, 41, and 43 for corresponding § 112(f)         structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of snake opens, including but not limited to:

-   -   means/steps for enabling NC detection of AA snake opens [see         FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of TS snake opens [see         FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT snake opens [see         FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of GATE snake opens [see         FIGS. 12-13, 30, 41, 43, and 1041-1048 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT snake opens         [see FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V0 snake opens [see         FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1 snake opens [see         FIGS. 12-13, 30, 41, 43, 44, and 1049-1066 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M1-V0-AACNT snake opens         [see FIGS. 12-13, 30, 41, 43, and 1067-1071 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1 snake opens [see         FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2 snake opens [see         FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 snake opens [see         FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3 snake opens [see         FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of stitch opens, including but not limited to:

-   -   means/steps for enabling NC detection of AA stitch opens [see         FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of TS stitch opens [see         FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT stitch opens [see         FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of GATECNT stitch opens         [see FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V0 stitch opens [see         FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1 stitch opens [see         FIGS. 12-13, 31-32, 41, 43, and 1072-1083 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1 stitch opens [see         FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2 stitch opens [see         FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 stitch opens [see         FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3 stitch opens [see         FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of via opens, including but not limited to:

-   -   means/steps for enabling NC detection of AACNT-TS via opens [see         FIGS. 12-13, 33, 41, 43, and 1629-1673 for corresponding §         112(f) structure/acts];     -   means/steps for enableing NC detection of AACNT-AA via opens         [see FIGS. 12-13, 33, 41, 43, and 1557-1628 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of TS-AA via opens [see         FIGS. 12-13, 33, 41, 43, and 2315-2330 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE via opens         [see FIGS. 12-13, 33, 41, 43, 48, and 1699-2005 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT via opens         [see FIGS. 12-13, 33, 41, 43, and 1674-1682 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT-GATE via         opens [see FIGS. 12-13, 33, 41, 43, and 1683-1698 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-GATECNT via opens         [see FIGS. 12-13, 33, 41, 43, and 2375-2439 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AA via opens [see         FIGS. 12-13, 33, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V0 via opens [see FIGS.         12-13, 33, 41, 43, and 2331-2344 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V0-TS via opens [see         FIGS. 12-13, 33, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V0-AACNT via opens [see         FIGS. 12-13, 33, 41, 43, and 2345-2374 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0-GATE via opens [see         FIGS. 12-13, 33, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1 via opens [see FIGS.         12-13, 33, 41, 43, and 2440-2441 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1-V0 via opens [see         FIGS. 12-13, 33, 41, 43, and 2006-2220 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M1 via opens [see         FIGS. 12-13, 33, 41, 43, and 2442-2459 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M2 via opens [see         FIGS. 12-13, 33, 41, 43, and 2221-2256 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M1-GATECNT via opens         [see FIGS. 12-13, 33, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2-M3 via opens [see         FIGS. 12-13, 33, 41, 43, and 2257-2274 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M1-AANCT via opens [see         FIGS. 12-13, 33, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2-M2 via opens [see         FIGS. 12-13, 33, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection V3 via opens [see FIGS.         12-13, 33, 41, 43, and 2460-2461 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M4-V3 via opens [see         FIGS. 12-13, 33, 41, 43, and 2275-2296 for corresponding §         112(f) structure/acts]; and,     -   means/steps for enabling NC detection of M5-V4 via opens [see         FIGS. 12-13, 33, 41, 43, and 2297-2314 for corresponding §         112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of metal island opens, including but not limited to:

-   -   means/steps for enabling NC detection of M1 metal island opens         [see FIGS. 12-13, 34-35, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2 metal island opens         [see FIGS. 12-13, 34-35, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M3 metal island opens         [see FIGS. 12-13, 34-35, 41, and 43 for corresponding § 112(f)         structure/acts];

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of merged-via opens, including but not limited to:

-   -   means/steps for enabling NC detection of V0-GATECNT merged via         opens [see FIGS. 12-13, 36, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0 merged via opens         [see FIGS. 12-13, 36, 41, 43, and 735-785 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AACNT merged via         opens [see FIGS. 12-13, 36, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1 merged via opens         [see FIGS. 12-13, 36, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 merged via opens         [see FIGS. 12-13, 36, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1-M1 merged via opens         [see FIGS. 12-13, 36, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of V2-M2 merged via opens         [see FIGS. 12-13, 36, 41, and 43 for corresponding § 112(f)         structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of tip-to-tip leakages, including but not limited to:

-   -   means/steps for enabling NC detection of AA tip-to-tip leakages         [see FIGS. 10-11, 14-15, 41, 43, and 1298-1326 for corresponding         § 112(f) structure/acts];     -   means/steps for enabling NC detection of AACNT tip-to-tip         leakages [see FIGS. 10-11, 14-15, 41, 43, and 1327-1405 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of TS tip-to-tip leakages         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT-AA tip-to-tip         leakages [see FIGS. 10-11, 14-15, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATE tip-to-tip         leakages [see FIGS. 10-11, 14-15, 41, 43, and 1413-1461 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE tip-to-tip         leakages [see FIGS. 10-11, 14-15, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT tip-to-tip         leakages [see FIGS. 10-11, 14-15, 41, 43, and 1462-1548 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT         tip-to-tip leakages [see FIGS. 10-11, 14-15, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1 tip-to-tip leakages         [see FIGS. 10-11, 14-15, 41, 43, and 1549-1556 for corresponding         § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0 tip-to-tip leakages         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1-V0 tip-to-tip         leakages [see FIGS. 10-11, 14-15, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M1 tip-to-tip         leakages [see FIGS. 10-11, 14-15, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1 tip-to-tip leakages         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2 tip-to-tip leakages         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2-M2 tip-to-tip         leakages [see FIGS. 10-11, 14-15, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M2-V1 tip-to-tip         leakages [see FIGS. 10-11, 14-15, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M3 tip-to-tip leakages         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 tip-to-tip leakages         [see FIGS. 10-11, 14-15, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3-V2 tip-to-tip         leakages [see FIGS. 10-11, 14-15, 41, and 43 for corresponding §         112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of tip-to-side leakages, including but not limited to:

-   -   means/steps for enabling NC detection of AA tip-to-side leakages         [see FIGS. 10-11, 16, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT tip-to-side         leakages [see FIGS. 10-11, 16, 41, 43, and 45 for corresponding         § 112(f) structure/acts];     -   means/steps for enabling NC detection of AACNT-AA tip-to-side         leakages [see FIGS. 10-11, 16, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATE-AA tip-to-side         leakages [see FIGS. 10-11, 16, 41, 43, 49, 50, and 1084-1119 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of TS-GATECNT tip-to-side         leakages [see FIGS. 10-11, 16, 41, 43, and 1239-1263 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE         tip-to-side leakages [see FIGS. 10-11, 16, 41, 43, and 1201-1238         for corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT tip-to-side         leakages [see FIGS. 10-11, 16, 41, 43, and 1120-1149 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT         tip-to-side leakages [see FIGS. 10-11, 16, 41, 43, 1150-1188 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1 tip-to-side leakages         [see FIGS. 10-11, 16, 41, 43, and 1264-1297 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0 tip-to-side leakages         [see FIGS. 10-11, 16, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1-V0 tip-to-side         leakages [see FIGS. 10-11, 16, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M1 tip-to-side         leakages [see FIGS. 10-11, 16, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1 tip-to-side leakages         [see FIGS. 10-11, 16, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2-V1 tip-to-side         leakages [see FIGS. 10-11, 16, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M2 tip-to-side leakages         [see FIGS. 10-11, 16, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2-M2 tip-to-side         leakages [see FIGS. 10-11, 16, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M3 tip-to-side leakages         [see FIGS. 10-11, 16, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 tip-to-side leakages         [see FIGS. 10-11, 16, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3-V2 tip-to-side         leakages [see FIGS. 10-11, 16, 41, and 43 for corresponding §         112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of side-to-side leakages, including but not limited to:

-   -   means/steps for enabling NC detection of AA side-to-side         leakages [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of AACNT side-to-side         leakages [see FIGS. 10-11, 17, 41, 43, and 786-804 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of AACNT-AA side-to-side         leakages [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATE side-to-side         leakages [see FIGS. 10-11, 17, 41, 43, and 833-859 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE         side-to-side leakages [see FIGS. 10-11, 17, 41, 43, and 886-903         for corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT side-to-side         leakages [see FIGS. 10-11, 17, 41, 43, and 860-872 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT         side-to-side leakages [see FIGS. 10-11, 17, 41, 43, 47A-C, and         873-885 for corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1 side-to-side         leakages [see FIGS. 10-11, 17, 41, 43, and 904-928 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0 side-to-side         leakages [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M1-V0 side-to-side         leakages [see FIGS. 10-11, 17, 41, 43, and 929-936 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M1 side-to-side         leakages [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1 side-to-side         leakages [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M2-V1 side-to-side         leakages [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M2 side-to-side         leakages [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V2-M2 side-to-side         leakages [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M3 side-to-side         leakages [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V2 side-to-side         leakages [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts]; and,     -   means/steps for enabling NC detection of M3-V2 side-to-side         leakages [see FIGS. 10-11, 17, 41, and 43 for corresponding §         112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of L-shape interlayer leakages, including but not limited to:

-   -   means/steps for enabling NC detection of AA L-shape interlayer         leakages [see FIGS. 10-11, 18-22, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of AACNT-L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of AACNT-AA-L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATE-AA-L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATE-TS L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE-L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AA L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATE-TS L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT-L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AA L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-TS L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AACNT L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-GATE L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-GATECNT L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1-AACNT L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1-GATECNT L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1-V0-L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M1-L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V1-V0 L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M2-V1-L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V2-V1 L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V2-M2 L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M3-M2 L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M3-V2 L-shape         interlayer leakages [see FIGS. 10-11, 18-22, 41, and 43 for         corresponding § 112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of diagonal leakages, including but not limited to:

-   -   means/steps for enabling NC detection of AA diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of TS diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT-AA diagonal         leakages [see FIGS. 10-11, 23, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATE diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of GATE-AACNT diagonal         leakages [see FIGS. 10-11, 23, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE diagonal         leakages [see FIGS. 10-11, 23, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT diagonal         leakages [see FIGS. 10-11, 23, 41, 43, and 495-554 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT diagonal         leakages [see FIGS. 10-11, 23, 41, 43, and 555-632 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1 diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V0 diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1-V0 diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1-M1 diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1 diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2 diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2-V1 diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M3 diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2-M2 diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3-V2 diagonal leakages         [see FIGS. 10-11, 23, 41, and 43 for corresponding § 112(f)         structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of corner leakages, including but not limited to:

-   -   means/steps for enabling NC detection of AA corner leakages [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT corner leakages         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT-AA corner         leakages [see FIGS. 10-11, 24-26, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATE corner leakages         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE corner         leakages [see FIGS. 10-11, 24-26, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-TS corner         leakages [see FIGS. 10-11, 24-26, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT corner leakages         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of GATECNT-AA corner         leakages [see FIGS. 10-11, 24-26, 41, 43, and 263-286 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT corner         leakages [see FIGS. 10-11, 24-26, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M1 corner leakages [see         FIGS. 10-11, 24-26, 41, 43, and 416-494 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0 corner leakages [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1-V0 corner leakages         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1-M1 corner leakages         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1 corner leakages [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2 corner leakages [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2-V1 corner leakages         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M3 corner leakages [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2-M2 corner leakages         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 corner leakages [see         FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3-V2 corner leakages         [see FIGS. 10-11, 24-26, 41, and 43 for corresponding § 112(f)         structure/acts];

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of interlayer-overlap leakages, including but not limited to:

-   -   means/steps for enabling NC detection of GATE-AA interlayer         overlap leakages [see FIGS. 10-11, 27, 41, 43, and 692-734 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATE-AACNT interlayer         overlap leakages [see FIGS. 10-11, 27, 41, 43, and 633-691 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATE-TS interlayer         overlap leakages [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-TS interlayer         overlap leakages [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AA interlayer         overlap leakages [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AA interlayer         overlap leakages [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AACNT interlayer         overlap leakages [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-TS interlayer         overlap leakages [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-GATE interlayer         overlap leakages [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1-GATECNT interlayer         overlap leakages see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1-AACNT interlayer         overlap leakages [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V1-V0 interlayer         overlap leakages [see FIGS. 10-11, 27, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of         M2-M1-interlayer-overlap leakages [see FIGS. 10-11, 27, 41, and         43 for corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of         V2-V1-interlayer-overlap leakages [see FIGS. 10-11, 27, 41, and         43 for corresponding § 112(f) structure/acts]; and,     -   means/steps for enabling NC detection of         M3-M2-interlayer-overlap leakages [see FIGS. 10-11, 27, 41, and         43 for corresponding § 112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of via-chamfer leakages, including but not limited to:

-   -   means/steps for enabling NC detection of V0-GATECNT via chamfer         leakages [see FIGS. 10-11, 28, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AACNT via chamfer         leakages [see FIGS. 10-11, 28, 41, 43, and 52-256 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M1 via chamfer         leakages [see FIGS. 10-11, 28, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V2-M2 via chamfer         leakages [see FIGS. 10-11, 28, 41, and 43 for corresponding §         112(f) structure/acts]; and,     -   means/steps for enabling NC detection of V3-M3 via chamfer         leakages [see FIGS. 10-11, 28, 41, 43, and 257-262 for         corresponding § 112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of merged-via leakages, including but not limited to:

-   -   means/steps for enabling NC detection of V0 merged via leakages         [see FIGS. 10-11, 29, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1 merged via leakages         [see FIGS. 10-11, 29, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of V2 merged via leakages         [see FIGS. 10-11, 29, 41, and 43 for corresponding § 112(f)         structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of snake resistances, including but not limited to:

-   -   means/steps for enabling NC detection of AA snake resistances         [see FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of TS snake resistances         [see FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT snake resistances         [see FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of GATE snake resistances         [see FIGS. 12-13, 30, 41, 43, and 1041-1048 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT snake         resistances [see FIGS. 12-13, 30, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0 snake resistances         [see FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1 snake resistances         [see FIGS. 12-13, 30, 41, 43, 44, and 1049-1066 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M1-V0-AACNT snake         resistances [see FIGS. 12-13, 30, 41, 43, and 1067-1071 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V1 snake resistances         [see FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2 snake resistances         [see FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 snake resistances         [see FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3 snake resistances         [see FIGS. 12-13, 30, 41, and 43 for corresponding § 112(f)         structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of stitch resistances, including but not limited to:

-   -   means/steps for enabling NC detection of AA stitch resistances         [see FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of TS stitch resistances         [see FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of AACNT stitch         resistances [see FIGS. 12-13, 31-32, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT stitch         resistances [see FIGS. 12-13, 31-32, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0 stitch resistances         [see FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M1 stitch resistances         [see FIGS. 12-13, 31-32, 41, 43, and 1072-1083 for corresponding         § 112(f) structure/acts];     -   means/steps for enabling NC detection of V1 stitch resistances         [see FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of M2 stitch resistances         [see FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V2 stitch resistances         [see FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts]; and,     -   means/steps for enabling NC detection of M3 stitch resistances         [see FIGS. 12-13, 31-32, 41, and 43 for corresponding § 112(f)         structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of via resistances, including but not limited to:

-   -   means/steps for enabling NC detection of AACNT-TS via         resistances [see FIGS. 12-13, 33, 41, 43, and 1629-1673 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of AACNT-AA via         resistances [see FIGS. 12-13, 33, 41, 43, and 1557-1628 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of TS-AA via resistances         [see FIGS. 12-13, 33, 41, 43, and 2315-2330 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-GATE via         resistances [see FIGS. 12-13, 33, 41, 43, 48, and 1699-2005 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT via         resistances [see FIGS. 12-13, 33, 41, 43, and 1674-1682 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of GATECNT-AACNT-GATE via         resistances [see FIGS. 12-13, 33, 41, 43, and 1683-1698 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-GATECNT via         resistances [see FIGS. 12-13, 33, 41, 43, and 2375-2439 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AA via resistances         [see FIGS. 12-13, 33, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V0 via resistances [see         FIGS. 12-13, 33, 41, 43, and 2331-2344 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0-TS via resistances         [see FIGS. 12-13, 33, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V0-AACNT via         resistances [see FIGS. 12-13, 33, 41, 43, and 2345-2374 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-GATE via resistances         [see FIGS. 12-13, 33, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection of V1 via resistances [see         FIGS. 12-13, 33, 41, 43, and 2440-2441 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M1-V0 resistances [see         FIGS. 12-13, 33, 41, 43, and 2006-2220 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M1 via resistances         [see FIGS. 12-13, 33, 41, 43, and 2442-2459 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M2 via resistances         [see FIGS. 12-13, 33, 41, 43, and 2221-2256 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M1-GATECNT via         resistances [see FIGS. 12-13, 33, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V2-M3 via resistances         [see FIGS. 12-13, 33, 41, 43, and 2257-2274 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M1-AANCT via         resistances [see FIGS. 12-13, 33, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V2-M2 via resistances         [see FIGS. 12-13, 33, 41, and 43 for corresponding § 112(f)         structure/acts];     -   means/steps for enabling NC detection V3 via resistances [see         FIGS. 12-13, 33, 41, 43, and 2460-2461 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of M4-V3 via resistances         [see FIGS. 12-13, 33, 41, 43, and 2275-2296 for corresponding §         112(f) structure/acts]; and,     -   means/steps for enabling NC detection of M5-V4 via resistances         [see FIGS. 12-13, 33, 41, 43, and 2297-2314 for corresponding §         112(f) structure/acts].

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of metal island resistances, including but not limited to:

-   -   means/steps for enabling NC detection of M1 metal island         resistances [see FIGS. 12-13, 34-35, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M2 metal island         resistances [see FIGS. 12-13, 34-35, 41, and 43 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of M3 metal island         resistances [see FIGS. 12-13, 34-35, 41, and 43 for         corresponding § 112(f) structure/acts];

Still further aspects of the invention relate to wafers, chips, and processes for making them that include/utilize DOEs based on means/steps for enabling NC detection of merged-via resistances, including but not limited to:

-   -   means/steps for enabling NC detection of V0-GATECNT merged via         resistances [see FIGS. 12-13, 36, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V0 merged via         resistances [see FIGS. 12-13, 36, 41, 43, and 735-785 for         corresponding § 112(f) structure/acts];     -   means/steps for enabling NC detection of V0-AACNT merged via         resistances [see FIGS. 12-13, 36, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1 merged via         resistances [see FIGS. 12-13, 36, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V2 merged via         resistances [see FIGS. 12-13, 36, 41, and 43 for corresponding §         112(f) structure/acts];     -   means/steps for enabling NC detection of V1-M1 merged via         resistances [see FIGS. 12-13, 36, 41, and 43 for corresponding §         112(f) structure/acts]; and,     -   means/steps for enabling NC detection of V2-M2 merged via         resistances [see FIGS. 12-13, 36, 41, and 43 for corresponding §         112(f) structure/acts].

Still further aspects of the invention relate to mesh-style NCEM pads, and their use with in-line process control/optimization, such pads comprising, for example: at least two parallel, elongated AACNT features, extending longitudinally in a first direction; at least two parallel, elongated GATECNT features, extending longitudinally in a second direction, perpendicular to the first direction; wherein the features are positioned such that each of the AANCT features intersects each of the GATECNT features. Such pads may include at least three (or four, or five, or six, etc.) parallel, elongated AACNT features that extend longitudinally in the first direction, and/or at least three (or four, or five, or six, etc.) parallel, elongated GATECNT features that extend longitudinally in the second direction. Such pads may be part of an assembly that includes: a mesh-style NCEM pad; and, an upper layer NCEM pad, overlying the mesh-style NCEM pad, said upper layer NCEM pad comprising: one or more mask-patterned features, in a first wiring layer (M1), that substantially cover the mesh-style NCEM pad; and, one or more mask-patterned features, in a via to interconnect stack (V0) layer, that provide electrical connection(s) between the M1 feature(s) and the mesh-style NCEM pad. Such V0 features may be positioned at the intersections of the underlying AACNT and GATECNT features, or may be positioned to avoid intersections of the underlying AACNT and GATECNT features. The one or more M1 features may include multiple, parallel, elongated M1 features. Any of the aforesaid features may be single-patterned, double-patterned, triple-patterned, etc. Such mesh-style NCEM pads may be used in NCEM-enabled fill cells, including but not limited to: AA-tip-to-tip-short-configured, NCEM-enabled fill cells; AACNT-tip-to-tip-short-configured, NCEM-enabled fill cells; AACNT-AA-tip-to-tip-short-configured, NCEM-enabled fill cells; AACNT-TS-tip-to-tip-short-configured, NCEM-enabled fill cells; TS-tip-to-tip-short-configured, NCEM-enabled fill cells; GATE-tip-to-tip-short-configured, NCEM-enabled fill cells; GATECNT-GATE-tip-to-tip-short-configured, NCEM-enabled fill cells; GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-tip-to-tip-short-configured, NCEM-enabled fill cells; M1-tip-to-tip-short-configured, NCEM-enabled fill cells; V0-tip-to-tip-short-configured, NCEM-enabled fill cells; M1-V0-tip-to-tip-short-configured, NCEM-enabled fill cells; V1-M1-tip-to-tip-short-configured, NCEM-enabled fill cells; V1-tip-to-tip-short-configured, NCEM-enabled fill cells; M2-tip-to-tip-short-configured, NCEM-enabled fill cells; M2-V1-tip-to-tip-short-configured, NCEM-enabled fill cells; V2-M2-tip-to-tip-short-configured, NCEM-enabled fill cells; M3-tip-to-tip-short-configured, NCEM-enabled fill cells; V2-tip-to-tip-short-configured, NCEM-enabled fill cells; M3-V2-tip-to-tip-short-configured, NCEM-enabled fill cells; AA-tip-to-side-short-configured, NCEM-enabled fill cells; AACNT-tip-to-side-short-configured, NCEM-enabled fill cells; AACNT-AA-tip-to-side-short-configured, NCEM-enabled fill cells; GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cells; GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cells; GATECNT-tip-to-side-short-configured, NCEM-enabled fill cells; TS-GATECNT-tip-to-side-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cells; M1-tip-to-side-short-configured, NCEM-enabled fill cells; V0-tip-to-side-short-configured, NCEM-enabled fill cells; M1-V0-tip-to-side-short-configured, NCEM-enabled fill cells; V1-M1-tip-to-side-short-configured, NCEM-enabled fill cells; V1-tip-to-side-short-configured, NCEM-enabled fill cells; M2-tip-to-side-short-configured, NCEM-enabled fill cells; M2-V1-tip-to-side-short-configured, NCEM-enabled fill cells; V2-M2-tip-to-side-short-configured, NCEM-enabled fill cells; M3-tip-to-side-short-configured, NCEM-enabled fill cells; V2-tip-to-side-short-configured, NCEM-enabled fill cells; M3-V2-tip-to-side-short-configured, NCEM-enabled fill cells; AA-side-to-side-short-configured, NCEM-enabled fill cells; AACNT-side-to-side-short-configured, NCEM-enabled fill cells; AACNT-AA-side-to-side-short-configured, NCEM-enabled fill cells; AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cells; GATE-side-to-side-short-configured, NCEM-enabled fill cells; GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cells; TS-GATE-side-to-side-short-configured, NCEM-enabled fill cells; GATECNT-side-to-side-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cells; M1-side-to-side-short-configured, NCEM-enabled fill cells; V0-side-to-side-short-configured, NCEM-enabled fill cells; M1-V0-side-to-side-short-configured, NCEM-enabled fill cells; V1-M1-side-to-side-short-configured, NCEM-enabled fill cells; V1-side-to-side-short-configured, NCEM-enabled fill cells; M2-side-to-side-short-configured, NCEM-enabled fill cells; M2-V1-side-to-side-short-configured, NCEM-enabled fill cells; V2-M2-side-to-side-short-configured, NCEM-enabled fill cells; M3-side-to-side-short-configured, NCEM-enabled fill cells; V2-side-to-side-short-configured, NCEM-enabled fill cells; M3-V2-side-to-side-short-configured, NCEM-enabled fill cells; AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; AACNT-AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATE-AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATE-TS-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATECNT-GATE-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATECNT-AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATECNT-TS-L-shape-interlayer-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-TS-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-GATE-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V0-GATECNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M1-AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M1-GATECNT-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M1-V0-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V1-M1-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V1-V0-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M2-M1-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M2-V1-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V2-V1-L-shape-interlayer-short-configured, NCEM-enabled fill cells; V2-M2-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M3-M2-L-shape-interlayer-short-configured, NCEM-enabled fill cells; M3-V2-L-shape-interlayer-short-configured, NCEM-enabled fill cells; AA-diagonal-short-configured, NCEM-enabled fill cells; TS-diagonal-short-configured, NCEM-enabled fill cells; AACNT-diagonal-short-configured, NCEM-enabled fill cells; AACNT-AA-diagonal-short-configured, NCEM-enabled fill cells; GATE-diagonal-short-configured, NCEM-enabled fill cells; GATE-AACNT-diagonal-short-configured, NCEM-enabled fill cells; GATECNT-GATE-diagonal-short-configured, NCEM-enabled fill cells; GATECNT-diagonal-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cells; M1-diagonal-short-configured, NCEM-enabled fill cells; V0-diagonal-short-configured, NCEM-enabled fill cells; M1-V0-diagonal-short-configured, NCEM-enabled fill cells; V1-M1-diagonal-short-configured, NCEM-enabled fill cells; V1-diagonal-short-configured, NCEM-enabled fill cells; M2-diagonal-short-configured, NCEM-enabled fill cells; M2-V1-diagonal-short-configured, NCEM-enabled fill cells; M3-diagonal-short-configured, NCEM-enabled fill cells; V2-M2-diagonal-short-configured, NCEM-enabled fill cells; V2-diagonal-short-configured, NCEM-enabled fill cells; M3-V2-diagonal-short-configured, NCEM-enabled fill cells; AA-corner-short-configured, NCEM-enabled fill cells; AACNT-corner-short-configured, NCEM-enabled fill cells; AACNT-AA-corner-short-configured, NCEM-enabled fill cells; GATE-corner-short-configured, NCEM-enabled fill cells; GATECNT-GATE-corner-short-configured, NCEM-enabled fill cells; GATECNT-TS-corner-short-configured, NCEM-enabled fill cells; GATECNT-corner-short-configured, NCEM-enabled fill cells; GATECNT-AA-corner-short-configured, NCEM-enabled fill cells; GATECNT-AACNT-corner-short-configured, NCEM-enabled fill cells; M1-corner-short-configured, NCEM-enabled fill cells; V0-corner-short-configured, NCEM-enabled fill cells; M1-V0-corner-short-configured, NCEM-enabled fill cells; V1-M1-corner-short-configured, NCEM-enabled fill cells; V1-corner-short-configured, NCEM-enabled fill cells; M2-corner-short-configured, NCEM-enabled fill cells; M2-V1-corner-short-configured, NCEM-enabled fill cells; M3-corner-short-configured, NCEM-enabled fill cells; V2-M2-corner-short-configured, NCEM-enabled fill cells; V2-corner-short-configured, NCEM-enabled fill cells; M3-V2-corner-short-configured, NCEM-enabled fill cells; GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cells; GATE-AACNT-interlayer-overlap-short-configured, NCEM-enabled fill cells; GATE-TS-interlayer-overlap-short-configured, NCEM-enabled fill cells; GATECNT-TS-interlayer-overlap-short-configured, NCEM-enabled fill cells; GATECNT-AA-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-AA-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-AACNT-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-TS-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cells; M1-GATECNT-interlayer-overlap-short-configured, NCEM-enabled fill cells; M1-AACNT-interlayer-overlap-short-configured, NCEM-enabled fill cells; V1-V0-interlayer-overlap-short-configured, NCEM-enabled fill cells; M2-M1-interlayer-overlap-short-configured, NCEM-enabled fill cells; V2-V1-interlayer-overlap-short-configured, NCEM-enabled fill cells; M3-M2-interlayer-overlap-short-configured, NCEM-enabled fill cells; V0-GATECNT-via-chamfer-short-configured, NCEM-enabled fill cells; V0-AACNT-via-chamfer-short-configured, NCEM-enabled fill cells; V1-M1-via-chamfer-short-configured, NCEM-enabled fill cells; V2-M2-via-chamfer-short-configured, NCEM-enabled fill cells; V3-M3-via-chamfer-short-configured, NCEM-enabled fill cells; V0-merged-via-short-configured, NCEM-enabled fill cells; V1-merged-via-short-configured, NCEM-enabled fill cells; V2-merged-via-short-configured, NCEM-enabled fill cells; AA-snake-open-configured, NCEM-enabled fill cells; TS-snake-open-configured, NCEM-enabled fill cells; AACNT-snake-open-configured, NCEM-enabled fill cells; GATE-snake-open-configured, NCEM-enabled fill cells; GATECNT-snake-open-configured, NCEM-enabled fill cells; V0-snake-open-configured, NCEM-enabled fill cells; M1-snake-open-configured, NCEM-enabled fill cells; M1-V0-AACNT-snake-open-configured, NCEM-enabled fill cells; V1-snake-open-configured, NCEM-enabled fill cells; M2-snake-open-configured, NCEM-enabled fill cells; V2-snake-open-configured, NCEM-enabled fill cells; M3-snake-open-configured, NCEM-enabled fill cells; AA-stitch-open-configured, NCEM-enabled fill cells; TS-stitch-open-configured, NCEM-enabled fill cells; AACNT-stitch-open-configured, NCEM-enabled fill cells; GATECNT-stitch-open-configured, NCEM-enabled fill cells; V0-stitch-open-configured, NCEM-enabled fill cells; M1-stitch-open-configured, NCEM-enabled fill cells; V1-stitch-open-configured, NCEM-enabled fill cells; M2-stitch-open-configured, NCEM-enabled fill cells; V2-stitch-open-configured, NCEM-enabled fill cells; M3-stitch-open-configured, NCEM-enabled fill cells; AACNT-TS-via-open-configured, NCEM-enabled fill cells; AACNT-AA-via-open-configured, NCEM-enabled fill cells; TS-AA-via-open-configured, NCEM-enabled fill cells; GATECNT-GATE-via-open-configured, NCEM-enabled fill cells; GATECNT-AACNT-via-open-configured, NCEM-enabled fill cells; GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cells; V0-GATECNT-via-open-configured, NCEM-enabled fill cells; V0-AA-via-open-configured, NCEM-enabled fill cells; V0-TS-via-open-configured, NCEM-enabled fill cells; V0-AACNT-via-open-configured, NCEM-enabled fill cells; V0-GATE-via-open-configured, NCEM-enabled fill cells; V0-via-open-configured, NCEM-enabled fill cells; M1-V0-via-open-configured, NCEM-enabled fill cells; V1-via-open-configured, NCEM-enabled fill cells; V1-M1-via-open-configured, NCEM-enabled fill cells; V1-M2-via-open-configured, NCEM-enabled fill cells; M1-GATECNT-via-open-configured, NCEM-enabled fill cells; M1-AANCT-via-open-configured, NCEM-enabled fill cells; V2-M2-via-open-configured, NCEM-enabled fill cells; V2-M3-via-open-configured, NCEM-enabled fill cells; V3-via-open-configured, NCEM-enabled fill cells; M4-V3-via-open-configured, NCEM-enabled fill cells; M5-V4-via-open-configured, NCEM-enabled fill cells; M1-metal-island-open-configured, NCEM-enabled fill cells; M2-metal-island-open-configured, NCEM-enabled fill cells; M3-metal-island-open-configured, NCEM-enabled fill cells; V0-merged-via-open-configured, NCEM-enabled fill cells; V0-AACNT-merged-via-open-configured, NCEM-enabled fill cells; V0-GATECNT-merged-via-open-configured, NCEM-enabled fill cells; V1-merged-via-open-configured, NCEM-enabled fill cells; V2-merged-via-open-configured, NCEM-enabled fill cells; V1-M1-merged-via-open-configured, NCEM-enabled fill cells; and/or V2-M2-merged-via-open-configured, NCEM-enabled fill cells. Using such mesh-style pads, a method for processing a semiconductor substrate may include: using a first mask to pattern a plurality of adjacent AACNT stripes on the substrate; using a second mask to pattern a plurality of adjacent GATECNT stripes on the substrate, where the GATECNT stripes perpendicularly overlap the AACNT stripes to form a mesh-style NCEM pad; and, obtaining in-line NCEM from the mesh-style NCEM pad. Such process may further include: using a third mask to pattern a plurality of V0 vias above at least some of the GATECNT and/or AACNT stripes of the mesh-style NCEM pad; and, using a fourth mask to pattern one or more M1 features above one or more of said V0 vias to form an M1 NCEM pad, and may further include: obtaining in-line NCEM from the M1 NCEM pad.

BRIEF DESCRIPTION OF THE FIGURES

To provide a more complete understanding of the present disclosure and features and advantages thereof, reference is made to the following set of figures, taken in conjunction with the accompanying description, in which:

[Note regarding the figures in this application, as well as in the '463 provisional application: Those figures numbered 52[A,B,C], 53[A,B,C], et seq. are to-scale layouts of the exemplified cells. While certain detail in these layouts may be difficult to see on the application or patent as published, persons skilled in the art will appreciate that the SCORE tab in USPTO's Public PAIR system provides access to the applicant's PDF drawings, as originally uploaded, which can be electronically downloaded and blown up to reveal any level of desired detail.]

FIG. 1 depicts an outline of illustrative fill cells, suitable for use in connection certain embodiments of the invention;

FIG. 2 depicts an exemplary standard cell logic section with (shaded) NCEM-enabled fill cells, of various widths;

FIG. 3 depicts an exemplary standard cell logic section with a row (or portion thereof) that contains NCEM-enabled fill cells, of various widths;

FIG. 4 depicts an exemplary standard cell logic section with a test block area (lower right portion) populated with NCEM-enabled fill cells, of various widths;

FIG. 5 depicts an exemplary portion of a test chip/wafer comprised of NCEM-enabled fill cells, of various widths;

FIG. 6 conceptually depicts a portion of an exemplary chip/wafer in which a region comprised only (or almost only) of NCEM-enabled fill cells is positioned between two or more standard cell regions;

FIG. 7 depicts a cross-sectional, topological view of a monolithic IC structure;

FIG. 8 depicts a physical layer stack for an exemplary CMOS process;

FIGS. 9A-9F depict several illustrative designs for a NCEM-enabled pad, suitable for use in connection with certain embodiments of the invention;

FIG. 9G depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and single-patterned AACNT stripes;

FIG. 9H depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and single-patterned AACNT stripes;

FIG. 9I depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and double-patterned AACNT stripes;

FIG. 9J depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and double-patterned AACNT stripes;

FIG. 9K depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and single-patterned AACNT stripes;

FIG. 9L depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and double-patterned AACNT stripes;

FIG. 9M depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and triple-patterned AACNT stripes;

FIG. 9N depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and triple-patterned AACNT stripes;

FIG. 90 depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and triple-patterned AACNT stripes;

FIG. 9P depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and single-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9Q depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and single-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9R depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and double-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9S depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and double-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9T depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and single-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9U depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and double-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9V depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9W depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9X depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9Y depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and single-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9Z depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and single-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9AA depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and double-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9BB depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and double-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9CC depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and single-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9DD depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and double-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9EE depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9FF depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points, with an overlying, solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9GG depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9HH depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9II depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9JJ depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9KK depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9LL depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9MM depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9NN depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9OO depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9PP depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9QQ depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9RR depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9SS depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9TT depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9UU depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9VV depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9WW depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9XX depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9YY depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9ZZ depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9AAA depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9BBB depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9CCC depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9DDD depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9EEE depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9FFF depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9GGG depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9HHH depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9III depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9JJJ depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9KKK depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9LLL depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9MMM depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9NNN depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9OOO depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9PPP depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9QQQ depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid, double-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9RRR depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9SSS depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9TTT depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9OOO depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9VVV depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9WWW depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9XXX depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9YYY depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9ZZZ depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned at GATECNT-AACNT junction points;

FIG. 9AAAA depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9BBBB depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9CCCC depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9DDDD depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9EEEE depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and single-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9FFFF depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and double-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9GGGG depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of single-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9HHHH depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of double-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIG. 9IIII depicts an exemplary mesh-style, NCEM-enabled pad, formed from a 10×9 grid of triple-patterned GATECNT and triple-patterned AACNT stripes, with an overlying, non-solid, triple-patterned M1 pad, and a plurality of V0 vias positioned to avoid GATECNT-AACNT junction points;

FIGS. 10-11, in conjunction with the description below, depict the overall physical structure and connectivity of short-configured (and/or leakage-configured), NCEM-enabled fill cells in accordance with certain aspects of the invention;

FIGS. 12-13, in conjunction with the description below, depict the overall physical structure and connectivity of open-configured (and/or resistance-configured), NCEM-enabled fill cells in accordance with certain aspects of the invention;

FIG. 14 depicts a plan view of exemplary test area geometry for an exemplary tip-to-tip-short-configured, NCEM-enabled fill cell;

FIG. 15 depicts another plan view of exemplary test area geometry for an exemplary tip-to-tip-short-configured, NCEM-enabled fill cell;

FIG. 16 depicts a plan view of exemplary test area geometry for an exemplary tip-to-side-short-configured, NCEM-enabled fill cell;

FIG. 17 depicts a plan view of exemplary test area geometry for an exemplary side-to-side-short-configured, NCEM-enabled fill cell;

FIG. 18 depicts a plan view of exemplary test area geometry for an exemplary L-shape-interlayer-short-configured, NCEM-enabled fill cell;

FIG. 19 depicts a plan view of exemplary test area geometry for another exemplary L-shape-interlayer-short-configured, NCEM-enabled fill cell;

FIG. 20 depicts a plan view of exemplary test area geometry for another exemplary L-shape-interlayer-short-configured, NCEM-enabled fill cell;

FIG. 21 depicts a plan view of exemplary test area geometry for another exemplary L-shape-interlayer-short-configured, NCEM-enabled fill cell;

FIG. 22 depicts a plan view of exemplary test area geometry for another exemplary L-shape-interlayer-short-configured, NCEM-enabled fill cell;

FIG. 23 depicts a plan view of exemplary test area geometry for an exemplary diagonal-short-configured, NCEM-enabled fill cell;

FIG. 24 depicts a plan view of exemplary test area geometry for an exemplary corner-short-configured, NCEM-enabled fill cell;

FIG. 25 depicts a plan view of exemplary test area geometry for another exemplary corner-short-configured, NCEM-enabled fill cell;

FIG. 26 depicts a plan view of exemplary test area geometry for another exemplary corner-short-configured, NCEM-enabled fill cell;

FIG. 27 depicts a plan view of exemplary test area geometry for an exemplary interlayer-overlap-short-configured, NCEM-enabled fill cell;

FIG. 28 depicts a plan view of exemplary test area geometry for an exemplary via-chamfer-short-configured, NCEM-enabled fill cell;

FIG. 29 depicts a plan view of exemplary test area geometry for an exemplary merged-via-short-configured, NCEM-enabled fill cell;

FIG. 30 depicts a plan view of exemplary test area geometry for an exemplary snake-open-configured, NCEM-enabled fill cell;

FIG. 31 depicts a plan view of exemplary test area geometry for an exemplary stitch-open-configured, NCEM-enabled fill cell;

FIG. 32 depicts a plan view of exemplary test area geometry for another exemplary stitch-open-configured, NCEM-enabled fill cell;

FIG. 33 depicts a plan view of exemplary test area geometry for an exemplary via-open-configured, NCEM-enabled fill cell;

FIG. 34 depicts a plan view of exemplary test area geometry for an exemplary metal-island-open-configured, NCEM-enabled fill cell;

FIG. 35 depicts a cross-sectional view of exemplary test area geometry for the exemplary metal-island-open-configured, NCEM-enabled fill cell;

FIG. 36 depicts a plan view of exemplary test area geometry for an exemplary merged-via-open-configured, NCEM-enabled fill cell;

FIG. 37 shows exemplary expanded test area geometry from a 1^(st) variant of a NCEM-enabled fill cell;

FIG. 38 shows exemplary expanded test area geometry from a 2^(nd) variant of a NCEM-enabled fill cell;

FIG. 39 shows the logical AND of patterning within both expanded test areas (of FIGS. 37 & 38);

FIG. 40 shows the logical OR of patterning within both expanded test areas (of FIGS. 37 & 38);

FIG. 41 depicts an exemplary process flow, suitable for use in connection with certain embodiments of the invention;

FIG. 42 depicts an exemplary process flow for obtaining and (optionally) using measurements from mesh-style NCEM pads;

FIG. 43 depicts another exemplary process flow, suitable for use in accordance with certain embodiments of the invention;

FIG. 44 depicts a plan view of an exemplary M1-snake-open-configured, NCEM-enabled fill cell;

FIG. 45 depicts a plan view of an exemplary AACNT-tip-to-side-short-configured, NCEM-enabled fill cell;

FIGS. 46A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0 and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type PDF_D_VCI_V16_14S1_01;

FIGS. 47A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0 and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type PDF_D_VCI_V16_14S1_05;

FIGS. 48A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0 and M1 layers—of an exemplary GATECNT-via-open-configured, NCEM-enabled fill cell of type PDF_D_VCI_V16_14S1_08;

FIGS. 49A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0 and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type PDF_D_VCI_V16_14S1_11;

FIGS. 50A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0 and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type PDF_D_VCI_V16_1451_12;

FIG. 51 contains a layer legend for FIGS. 1A-C, 2A-C, 3A-C, etc., which follow;

FIGS. 52A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S117_0009_1;

FIGS. 53A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S117_0009_1;

FIGS. 54A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S117_0009_1;

FIGS. 55A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S117_0009_1;

FIGS. 56A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S117_0007_1;

FIGS. 57A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S117_0007_1;

FIGS. 58A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S117_0007_1;

FIGS. 59A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S117_0007_1;

FIGS. 60A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S117_0006_1;

FIGS. 61A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S117_0006_1;

FIGS. 62A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S117_0006_1;

FIGS. 63A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S117_0006_1;

FIGS. 64A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S117_0004_1;

FIGS. 65A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S117_0004_1;

FIGS. 66A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S117_0004_1;

FIGS. 67A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S117_0004_1;

FIGS. 68A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S121_0007_1;

FIGS. 69A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S121_0007_1;

FIGS. 70A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S121_0007_1;

FIGS. 71A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S121_0007_1;

FIGS. 72A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S121_0005_1;

FIGS. 73A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S121_0005_1;

FIGS. 74A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S121_0005_1;

FIGS. 75A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S121_0005_1;

FIGS. 76A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S121_0004_1;

FIGS. 77A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S121_0004_1;

FIGS. 78A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S121_0004_1;

FIGS. 79A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S121_0004_1;

FIGS. 80A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S121_0002_1;

FIGS. 81A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S121_0002_1;

FIGS. 82A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S121_0002_1;

FIGS. 83A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S121_0002_1;

FIGS. 84A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S121_0001_1;

FIGS. 85A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S121_0001_1;

FIGS. 86A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S121_0001_1;

FIGS. 87A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S121_0001_1;

FIGS. 88A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0029_1;

FIGS. 89A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0028_1;

FIGS. 90A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0024_1;

FIGS. 91A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0023_1;

FIGS. 92A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0021_1;

FIGS. 93A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0020_1;

FIGS. 94A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0019_1;

FIGS. 95A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0018_1;

FIGS. 96A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0017_1;

FIGS. 97A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0016_1;

FIGS. 98A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0015_1;

FIGS. 99A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0014_1;

FIGS. 100A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0013_1;

FIGS. 101A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0012_1;

FIGS. 102A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0011_1;

FIGS. 103A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0010_1;

FIGS. 104A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0009_1;

FIGS. 105A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0008_1;

FIGS. 106A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0001_1;

FIGS. 107A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0018_1;

FIGS. 108A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0022_1;

FIGS. 109A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0045_1;

FIGS. 110A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0044_1;

FIGS. 111A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0008_1;

FIGS. 112A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0005_1;

FIGS. 113A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0004_1;

FIGS. 114A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0005_1;

FIGS. 115A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0002_1;

FIGS. 116A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0001_1;

FIGS. 117A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0017_1;

FIGS. 118A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0002_1;

FIGS. 119A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0001_1;

FIGS. 120A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0027_1;

FIGS. 121A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0025_1;

FIGS. 122A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0044_1;

FIGS. 123A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0023_1;

FIGS. 124A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0043_1;

FIGS. 125A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0045_1;

FIGS. 126A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0021_1;

FIGS. 127A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0044_1;

FIGS. 128A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0020_1;

FIGS. 129A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0019_1;

FIGS. 130A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0015_1;

FIGS. 131A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0014_1;

FIGS. 132A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0010_1;

FIGS. 133A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0007_1;

FIGS. 134A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0006_1;

FIGS. 135A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0005_1;

FIGS. 136A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0004_1;

FIGS. 137A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0003_1;

FIGS. 138A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0005_1;

FIGS. 139A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0004_1;

FIGS. 140A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0003_1;

FIGS. 141A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0002_1;

FIGS. 142A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0001_1;

FIGS. 143A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0003_1;

FIGS. 144A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0002_1;

FIGS. 145A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0001_1;

FIGS. 146A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0030_1;

FIGS. 147A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0029_1;

FIGS. 148A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0028_1;

FIGS. 149A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0006_1;

FIGS. 150A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0004_1;

FIGS. 151A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0003_1;

FIGS. 152A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S200016C;

FIGS. 153A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S200026C;

FIGS. 154A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S200036C;

FIGS. 155A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S2000176;

FIGS. 156A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000276;

FIGS. 157A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000376;

FIGS. 158A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000180;

FIGS. 159A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000280;

FIGS. 160A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S10001F4_001;

FIGS. 161A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S1000AF4_010;

FIGS. 162A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S10013F4_019;

FIGS. 163A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000120_001;

FIGS. 164A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000D20_013;

FIGS. 165A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3001920_025;

FIGS. 166A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S200010D_001;

FIGS. 167A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S200090D_009;

FIGS. 168A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S200110D_017;

FIGS. 169A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000112_001;

FIGS. 1770A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000912_009;

FIGS. 171A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2001112_017;

FIGS. 172A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S160_216_1;

FIGS. 173A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S160_224_1;

FIGS. 174A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S159_197_1;

FIGS. 175A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S159_205_1;

FIGS. 176A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S158_178_1;

FIGS. 177A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S158_186_1;

FIGS. 178A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S161_235_1;

FIGS. 179A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S161_243_1;

FIGS. 180A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S294_0017_1;

FIGS. 181A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S294_0009_1;

FIGS. 182A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S292_0017_1;

FIGS. 183A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S292_0009_1;

FIGS. 184A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S293_0009_1;

FIGS. 185A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S293_0001_1;

FIGS. 186A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_40_1;

FIGS. 187A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_59_1;

FIGS. 188A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_61_1;

FIGS. 189A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_63_1;

FIGS. 190A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_42_1;

FIGS. 191A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001BF_01;

FIGS. 192A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20013BF_19;

FIGS. 193A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20025BF_37;

FIGS. 194A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001BD_01;

FIGS. 195A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20014BD_20;

FIGS. 196A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20027BD_39;

FIGS. 197A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001C0_01;

FIGS. 198A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20013C0_19;

FIGS. 199A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20025C0_37;

FIGS. 200A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001BE_01;

FIGS. 201A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20014BE_20;

FIGS. 202A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20027BE_39;

FIGS. 203A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000164_01;

FIGS. 204A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000964_09;

FIGS. 205A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001164_17;

FIGS. 206A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000166_01;

FIGS. 207A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000966_09;

FIGS. 208A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001166_17;

FIGS. 209A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000194_01;

FIGS. 210A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001194_17;

FIGS. 211A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2002194_33;

FIGS. 212A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000198_01;

FIGS. 213A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001198_17;

FIGS. 214A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2002198_33;

FIGS. 215A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000196_01;

FIGS. 216A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001196_17;

FIGS. 217A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2002196_33;

FIGS. 218A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20001BD_01;

FIGS. 219A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20014BD_20;

FIGS. 220A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20027BD_39;

FIGS. 221A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20001BE_01;

FIGS. 222A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20014BE_20;

FIGS. 223A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20027BE_39;

FIGS. 224A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001BF_01;

FIGS. 225A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20013BF_19;

FIGS. 226A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20025BF_37;

FIGS. 227A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001BD_01;

FIGS. 228A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20014BD_20;

FIGS. 229A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20027BD_39;

FIGS. 230A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001C0_01;

FIGS. 231A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20013C0_19;

FIGS. 232A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20025C0_37;

FIGS. 233A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001BE_01;

FIGS. 234A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20014BE_20;

FIGS. 235A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20027BE_39;

FIGS. 236A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000164_01;

FIGS. 237A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000964_09;

FIGS. 238A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001164_17;

FIGS. 239A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000166_01;

FIGS. 240A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000966_09;

FIGS. 241A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001166_17;

FIGS. 242A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000194_01;

FIGS. 243A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001194_17;

FIGS. 244A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2002194_33;

FIGS. 245A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000198_01;

FIGS. 246A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001198_17;

FIGS. 247A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2002198_33;

FIGS. 248A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000196_01;

FIGS. 249A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001196_17;

FIGS. 250A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2002196_33;

FIGS. 251A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20001BD_01;

FIGS. 252A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20014BD_20;

FIGS. 253A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20027BD_39;

FIGS. 254A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20001BE_01;

FIGS. 255A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20014BE_20;

FIGS. 256A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-chamfer-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20027BE_39;

FIGS. 257A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary V3-M3-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_10001F6_01;

FIGS. 258A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary V3-M3-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_10022F6_34;

FIGS. 259A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary V3-M3-chamfer-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_10043F6_67;

FIGS. 260A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary V3-M3-chamfer-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_10001F6_01;

FIGS. 261A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary V3-M3-chamfer-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_10022F6_34;

FIGS. 262A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary V3-M3-chamfer-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_10043F6_67;

FIGS. 263A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000180_01;

FIGS. 264A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000880_08;

FIGS. 265A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000F80_15;

FIGS. 266A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001080_16;

FIGS. 267A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001780_23;

FIGS. 268A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001E80_30;

FIGS. 269A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000182_01;

FIGS. 270A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000882_08;

FIGS. 271A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000F82_15;

FIGS. 272A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001082_16;

FIGS. 273A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001782_23;

FIGS. 274A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001E82_30;

FIGS. 275A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000180_01;

FIGS. 276A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000880_08;

FIGS. 277A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000F80_15;

FIGS. 278A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001080_16;

FIGS. 279A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001780_23;

FIGS. 280A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001E80_30;

FIGS. 281A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000182_01;

FIGS. 282A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000882_08;

FIGS. 283A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000F82_15;

FIGS. 284A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001082_16;

FIGS. 285A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001782_23;

FIGS. 286A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AA-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001E82_30;

FIGS. 287A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S108_0003_1;

FIGS. 288A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S108_0003_1;

FIGS. 289A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S108_0003_1;

FIGS. 290A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S108_0003_1;

FIGS. 291A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S108_0002_1;

FIGS. 292A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S108_0002_1;

FIGS. 293A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S108_0002_1;

FIGS. 294A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S108_0002_1;

FIGS. 295A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0048_1;

FIGS. 296A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0102_1;

FIGS. 297A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0030_1;

FIGS. 298A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0084_1;

FIGS. 299A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0012_1;

FIGS. 300A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0066_1;

FIGS. 301A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0055_1;

FIGS. 302A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0054_1;

FIGS. 303A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0052_1;

FIGS. 304A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0050_1;

FIGS. 305A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0048_1;

FIGS. 306A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0046_1;

FIGS. 307A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0084_1;

FIGS. 308A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0083_1;

FIGS. 309A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0082_1;

FIGS. 310A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0021_1;

FIGS. 311A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0052_1;

FIGS. 312A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0051_1;

FIGS. 313A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0050_1;

FIGS. 314A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0049_1;

FIGS. 315A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0015_1;

FIGS. 316A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0048_1;

FIGS. 317A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0049_1;

FIGS. 318A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0047_1;

FIGS. 319A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0048_1;

FIGS. 320A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0046_1;

FIGS. 321A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0047_1;

FIGS. 322A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0045_1;

FIGS. 323A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0046_1;

FIGS. 324A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0044_1;

FIGS. 325A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0045_1;

FIGS. 326A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0043_1;

FIGS. 327A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0044_1;

FIGS. 328A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0042_1;

FIGS. 329A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0043_1;

FIGS. 330A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0042_1;

FIGS. 331A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0041_1;

FIGS. 332A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0040_1;

FIGS. 333A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0039_1;

FIGS. 334A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0029_1;

FIGS. 335A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0049_1;

FIGS. 336A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0048_1;

FIGS. 337A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0047_1;

FIGS. 338A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0046_1;

FIGS. 339A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0045_1;

FIGS. 340A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0044_1;

FIGS. 341A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0043_1;

FIGS. 342A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0042_1;

FIGS. 343A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0041_1;

FIGS. 344A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0040_1;

FIGS. 345A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0039_1;

FIGS. 346A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0034_1;

FIGS. 347A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0008_1;

FIGS. 348A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0007_1;

FIGS. 349A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0006_1;

FIGS. 350A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0005_1;

FIGS. 351A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0004_1;

FIGS. 352A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0003_1;

FIGS. 353A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0002_1;

FIGS. 354A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0001_1;

FIGS. 355A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0033_1;

FIGS. 356A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0032_1;

FIGS. 357A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0027_1;

FIGS. 358A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0026_1;

FIGS. 359A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0019_1;

FIGS. 360A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0018_1;

FIGS. 361A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0014_1;

FIGS. 362A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0013_1;

FIGS. 363A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S250_0012_1;

FIGS. 364A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S250_0005_1;

FIGS. 365A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S250_0001_1;

FIGS. 366A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S251_0012_1;

FIGS. 367A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S251_0005_1;

FIGS. 368A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S251_0001_1;

FIGS. 369A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S252_0012_1;

FIGS. 370A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S252_0005_1;

FIGS. 371A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S252_0001_1;

FIGS. 372A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S253_0012_1;

FIGS. 373A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S253_0005_1;

FIGS. 374A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S253_0001_1;

FIGS. 375A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_22_1;

FIGS. 376A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_23_1;

FIGS. 377A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000123_01;

FIGS. 378A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000823_08;

FIGS. 379A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000F23_15;

FIGS. 380A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000124_01;

FIGS. 381A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000F24_15;

FIGS. 382A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001D24_29;

FIGS. 383A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000125_01;

FIGS. 384A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000825_08;

FIGS. 385A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000F25_15;

FIGS. 386A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000126_01;

FIGS. 387A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000F26_15;

FIGS. 388A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001D26_29;

FIGS. 389A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000168_01;

FIGS. 390A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000F68_15;

FIGS. 391A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001D68_29;

FIGS. 392A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_200016A_01;

FIGS. 393A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000F6A_15;

FIGS. 394A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001D6A_29;

FIGS. 395A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_200016C_01;

FIGS. 396A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000F6C_15;

FIGS. 397A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001D6C_29;

FIGS. 398A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_3000123_01;

FIGS. 399A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_3000823_08;

FIGS. 400A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_3000F23_15;

FIGS. 401A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_3000125_01;

FIGS. 402A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_3000825_08;

FIGS. 403A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_3000F25_15;

FIGS. 404A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_30001E9_01;

FIGS. 405A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_30008E9_08;

FIGS. 406A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_3000FE9_15;

FIGS. 407A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_30001EA_01;

FIGS. 408A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_30008EA_08;

FIGS. 409A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_3000FEA_15;

FIGS. 410A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000124_01;

FIGS. 411A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000F24_15;

FIGS. 412A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001D24_29;

FIGS. 413A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000126_01;

FIGS. 414A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000F26_15;

FIGS. 415A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-corner-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001D26_29;

FIGS. 416A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S113_0001_1;

FIGS. 417A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S113_0001_1;

FIGS. 418A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S113_0001_1;

FIGS. 419A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S113_0001_1;

FIGS. 420A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0047_1;

FIGS. 421A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0046_1;

FIGS. 422A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0045_1;

FIGS. 423A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0044_1;

FIGS. 424A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0043_1;

FIGS. 425A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0042_1;

FIGS. 426A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0040_1;

FIGS. 427A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0039_1;

FIGS. 428A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0038_1;

FIGS. 429A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0008_1;

FIGS. 430A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0007_1;

FIGS. 431A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0006_1;

FIGS. 432A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0005_1;

FIGS. 433A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0004_1;

FIGS. 434A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0003_1;

FIGS. 435A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0079_1;

FIGS. 436A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0078_1;

FIGS. 437A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0077_1;

FIGS. 438A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0076_1;

FIGS. 439A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0074_1;

FIGS. 440A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0075_1;

FIGS. 441A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0039_1;

FIGS. 442A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0038_1;

FIGS. 443A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0037_1;

FIGS. 444A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0036_1;

FIGS. 445A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0035_1;

FIGS. 446A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0036_1;

FIGS. 447A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0034_1;

FIGS. 448A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0035_1;

FIGS. 449A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0034_1;

FIGS. 450A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0033_1;

FIGS. 451A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0032_1;

FIGS. 452A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0031_1;

FIGS. 453A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0036_1;

FIGS. 454A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0035_1;

FIGS. 455A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0034_1;

FIGS. 456A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0033_1;

FIGS. 457A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0032_1;

FIGS. 458A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0031_1;

FIGS. 459A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0017_1;

FIGS. 460A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0039_1;

FIGS. 461A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0042_1;

FIGS. 462A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0042_1;

FIGS. 463A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000162;

FIGS. 464A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000262;

FIGS. 465A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000362;

FIGS. 466A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000462;

FIGS. 467A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000562;

FIGS. 468A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000662;

FIGS. 469A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000762;

FIGS. 470A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000862;

FIGS. 471A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000103_001;

FIGS. 472A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000203_002;

FIGS. 473A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000108_001;

FIGS. 474A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000208_002;

FIGS. 475A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S155_123_1;

FIGS. 476A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S153_65_1;

FIGS. 477A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S153_70_1;

FIGS. 478A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S151_1_1;

FIGS. 479A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S151_14_1;

FIGS. 480A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S152_33_1;

FIGS. 481A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S152_46_1;

FIGS. 482A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S154_92_1;

FIGS. 483A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S154_93_1;

FIGS. 484A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_30_1;

FIGS. 485A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000705_07;

FIGS. 486A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000706_07;

FIGS. 487A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000102_01;

FIGS. 488A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000F02_15;

FIGS. 489A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001D02_29;

FIGS. 490A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000705_07;

FIGS. 491A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000706_07;

FIGS. 492A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000102_01;

FIGS. 493A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000F02_15;

FIGS. 494A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-corner-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001D02_29;

FIGS. 495A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0109_1;

FIGS. 496A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0091_1;

FIGS. 497A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0073_1;

FIGS. 498A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0055_1;

FIGS. 499A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0004_1;

FIGS. 500A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0003_1;

FIGS. 501A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0002_1;

FIGS. 502A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0001_1;

FIGS. 503A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0064_1;

FIGS. 504A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0063_1;

FIGS. 505A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0062_1;

FIGS. 506A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0061_1;

FIGS. 507A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0061_1;

FIGS. 508A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0060_1;

FIGS. 509A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0058_1;

FIGS. 510A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0059_1;

FIGS. 511A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0061_1;

FIGS. 512A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0060_1;

FIGS. 513A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0059_1;

FIGS. 514A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0058_1;

FIGS. 515A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0020_1;

FIGS. 516A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0019_1;

FIGS. 517A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0018_1;

FIGS. 518A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0017_1;

FIGS. 519A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S115_98_1;

FIGS. 520A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S115_102_1;

FIGS. 521A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S115_115_1;

FIGS. 522A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S116_116_1;

FIGS. 523A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S116_120_1;

FIGS. 524A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S116_139_1;

FIGS. 525A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S117_172_1;

FIGS. 526A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S117_176_1;

FIGS. 527A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S117_189_1;

FIGS. 528A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S118_190_1;

FIGS. 529A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S118_194_1;

FIGS. 530A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S118_207_1;

FIGS. 531A-C respectively depict plan views of—(A) all layers; (B) V0, and M1 layers; (C) NWELL, AA, GATE, GATECNT, TS, and AACNT layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_75245_0018_1;

FIGS. 532A-C respectively depict plan views of—(A) all layers; (B) V0, and M1 layers; (C) NWELL, AA, GATE, GATECNT, TS, and AACNT layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_75245_0014_1;

FIGS. 533A-C respectively depict plan views of—(A) all layers; (B) V0, and M1 layers; (C) NWELL, AA, GATE, GATECNT, TS, and AACNT layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_75245_0001_1;

FIGS. 534A-C respectively depict plan views of—(A) all layers; (B) V0, and M1 layers; (C) NWELL, AA, GATE, GATECNT, TS, and AACNT layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_75246_0024_1;

FIGS. 535A-C respectively depict plan views of—(A) all layers; (B) V0, and M1 layers; (C) NWELL, AA, GATE, GATECNT, TS, and AACNT layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_75246_0020_1;

FIGS. 536A-C respectively depict plan views of—(A) all layers; (B) V0, and M1 layers; (C) NWELL, AA, GATE, GATECNT, TS, and AACNT layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_75246_0001_1;

FIGS. 537A-C respectively depict plan views of—(A) all layers; (B) V0, and M1 layers; (C) NWELL, AA, GATE, GATECNT, TS, and AACNT layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S247_0018_1;

FIGS. 538A-C respectively depict plan views of—(A) all layers; (B) V0, and M1 layers; (C) NWELL, AA, GATE, GATECNT, TS, and AACNT layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S247_0014_1;

FIGS. 539A-C respectively depict plan views of—(A) all layers; (B) V0, and M1 layers; (C) NWELL, AA, GATE, GATECNT, TS, and AACNT layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S247_0001_1;

FIGS. 540A-C respectively depict plan views of—(A) all layers; (B) V0, and M1 layers; (C) NWELL, AA, GATE, GATECNT, TS, and AACNT layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S248_0018_1;

FIGS. 541A-C respectively depict plan views of—(A) all layers; (B) V0, and M1 layers; (C) NWELL, AA, GATE, GATECNT, TS, and AACNT layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S248_0014_1;

FIGS. 542A-C respectively depict plan views of—(A) all layers; (B) V0, and M1 layers; (C) NWELL, AA, GATE, GATECNT, TS, and AACNT layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S248_0001_1;

FIGS. 543A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001C9_01;

FIGS. 544A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20007C9_07;

FIGS. 545A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000DC9_13;

FIG. 546A respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000104_01;

FIGS. 547A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000404_04;

FIGS. 548A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000704_07;

FIGS. 549A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001C9_01;

FIGS. 550A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20004C9_04;

FIGS. 551A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20007C9_07;

FIGS. 552A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000104_01;

FIGS. 553A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000404_04;

FIGS. 554A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-diagonal-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000704_07;

FIGS. 555A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S102_0001_1;

FIGS. 556A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S102_0001_1;

FIGS. 557A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S102_0001_1;

FIGS. 558A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S102_0001_1;

FIGS. 559A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL6_11S120_01_02_1;

FIGS. 560A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL9_11S120_01_02_2;

FIGS. 561A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL12_11S120_01_02_3;

FIGS. 562A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL24_11S120_01_02_4;

FIGS. 563A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL48_11S120_01_02_5;

FIGS. 564A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL72_11S120_01_02_6;

FIGS. 565A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL6_11S120_01_02_31;

FIGS. 566A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL9_11S120_01_02_32;

FIGS. 567A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL12_11S120_01_02_33;

FIGS. 568A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL24_11S120_01_02_34;

FIGS. 569A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL48_11S120_01_02_35;

FIGS. 570A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL72_11S120_01_02_36;

FIGS. 571A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL6_11S120_03_04_1;

FIGS. 572A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL9_11S120_03_04_2;

FIGS. 573A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL12_11S120_03_04_3;

FIGS. 574A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL24_11S120_03_04_4;

FIGS. 575A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL48_11S120_03_04_5;

FIGS. 576A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL72_11S120_03_04_6;

FIGS. 577A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL6_11S120_03_04_31;

FIGS. 578A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL9_11S120_03_04_32;

FIGS. 579A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL12_11S120_03_04_33;

FIGS. 580A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL24_11S120_03_04_34;

FIGS. 581A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL48_11S120_03_04_35;

FIGS. 582A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL72_11S120_03_04_36;

FIGS. 583A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0041_1;

FIGS. 584A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0076_1;

FIGS. 585A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0005_1;

FIGS. 586A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0043_1;

FIGS. 587A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0039_1;

FIGS. 588A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0035_1;

FIGS. 589A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0071_1;

FIGS. 590A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0069_1;

FIGS. 591A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0066_1;

FIGS. 592A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0071_1;

FIGS. 593A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0069_1;

FIGS. 594A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0066_1;

FIGS. 595A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0030_1;

FIGS. 596A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0028_1;

FIGS. 597A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0025_1;

FIGS. 598A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0069_1;

FIGS. 599A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000152_01;

FIGS. 600A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001152_17;

FIGS. 601A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3002152_33;

FIGS. 602A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000154_01;

FIGS. 603A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001154_17;

FIGS. 604A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3002154_33;

FIGS. 605A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000156_01;

FIGS. 606A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001156_17;

FIGS. 607A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3002156_33;

FIGS. 608A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000158_01;

FIGS. 609A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001158_17;

FIGS. 610A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3002158_33;

FIGS. 611A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000117_001;

FIGS. 612A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2001117_017;

FIGS. 613A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2002117_033;

FIGS. 614A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000118_001;

FIGS. 615A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2001118_017;

FIGS. 616A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2002118_033;

FIGS. 617A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000121_001;

FIGS. 618A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000D21_013;

FIGS. 619A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2001921_025;

FIGS. 620A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_5_1;

FIGS. 621A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300013E_01;

FIGS. 622A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000F3E_15;

FIGS. 623A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001D3E_29;

FIGS. 624A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001E3E_30;

FIGS. 625A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002C3E_44;

FIGS. 626A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003A3E_58;

FIGS. 627A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300013E_01;

FIGS. 628A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000F3E_15;

FIGS. 629A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001D3E_29;

FIGS. 630A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001E3E_30;

FIGS. 631A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002C3E_44;

FIGS. 632A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003A3E_58;

FIGS. 633A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S104_0003_1;

FIGS. 634A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S104_0003_1;

FIGS. 635A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S104_0003_1;

FIGS. 636A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S104_0003_1;

FIGS. 637A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL4_9S104_0001_1;

FIGS. 638A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL6_9S104_0001_1;

FIGS. 639A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S104_0002_1;

FIGS. 640A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S104_0002_1;

FIGS. 641A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S104_0002_1;

FIGS. 642A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S104_0002_1;

FIGS. 643A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0112_1;

FIGS. 644A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0033_1;

FIGS. 645A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0049_1;

FIGS. 646A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL8_12S01_0012_1;

FIGS. 647A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0048_1;

FIGS. 648A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0031_1;

FIGS. 649A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0027_1;

FIGS. 650A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0024_1;

FIGS. 651A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL04_24S2_0006_1;

FIGS. 652A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL06_24S2_0010_1;

FIGS. 653A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0046_1.

FIGS. 654A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0044_1;

FIGS. 655A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0043_1;

FIGS. 656A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0036_1;

FIGS. 657A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0035_1;

FIGS. 658A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0027_1;

FIGS. 659A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0026_1;

FIGS. 660A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0002_1;

FIGS. 661A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0001_1;

FIGS. 662A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0077_1;

FIGS. 663A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0074_1;

FIGS. 664A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0074_1;

FIGS. 665A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0033_1;

FIGS. 666A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S106_94_1;

FIGS. 667A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S107_96_1;

FIGS. 668A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S296_0031_1.

FIGS. 669A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S296_0016_1;

FIGS. 670A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S296_0001_1;

FIGS. 671A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_8_1;

FIGS. 672A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL4_1_1;

FIGS. 673A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_9_1;

FIGS. 674A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300012A_01;

FIGS. 675A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300022A_02;

FIGS. 676A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300032A_03;

FIGS. 677A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300042A_04;

FIGS. 678A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300052A_05;

FIGS. 679A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300062A_06;

FIGS. 680A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300072A_07;

FIGS. 681A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300082A_08;

FIGS. 682A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_200019C_01;

FIGS. 683A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300012A_01;

FIGS. 684A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300022A_02;

FIGS. 685A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300032A_03;

FIGS. 686A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300042A_04;

FIGS. 687A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300052A_05;

FIGS. 688A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300062A_06;

FIGS. 689A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300072A_07;

FIGS. 690A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300082A_08;

FIGS. 691A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-interlayer-overlap-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_200019C_01;

FIGS. 692A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0113_1;

FIGS. 693A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0042_1;

FIGS. 694A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0095_1;

FIGS. 695A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0024_1;

FIGS. 696A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0077_1;

FIGS. 697A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0006_1;

FIGS. 698A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0044_1;

FIGS. 699A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0042_1;

FIGS. 700A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0040_1;

FIGS. 701A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0036_1;

FIGS. 702A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0034_1;

FIGS. 703A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0032_1;

FIGS. 704A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0059_1;

FIGS. 705A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0058_1;

FIGS. 706A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0057_1;

FIGS. 707A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0055_1;

FIGS. 708A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0054_1;

FIGS. 709A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0053_1;

FIGS. 710A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0019_1;

FIGS. 711A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0018_1;

FIGS. 712A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0017_1;

FIGS. 713A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0012_1;

FIGS. 714A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0015_1;

FIGS. 715A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0016_1;

FIGS. 716A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0014_1;

FIGS. 717A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0015_1;

FIGS. 718A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0013_1;

FIGS. 719A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0014_1;

FIGS. 720A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0012_1;

FIGS. 721A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0011_1;

FIGS. 722A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0010_1;

FIGS. 723A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0016_1;

FIGS. 724A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0015_1;

FIGS. 725A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0014_1;

FIGS. 726A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0012_1;

FIGS. 727A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0011_1;

FIGS. 728A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0010_1;

FIGS. 729A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_11;

FIGS. 730A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_12;

FIGS. 731A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_200018A_01;

FIGS. 732A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_200018C_01;

FIGS. 733A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_200018A_01;

FIGS. 734A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_200018C_01;

FIGS. 735A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S117_0003_1;

FIGS. 736A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S117_0003_1;

FIGS. 737A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S117_0003_1;

FIGS. 738A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S117_0003_1;

FIGS. 739A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0027_1;

FIGS. 740A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0026_1;

FIGS. 741A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0025_1;

FIGS. 742A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0020_1;

FIGS. 743A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0019_1;

FIGS. 744A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0019_1;

FIGS. 745A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0046_1;

FIGS. 746A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0005_1;

FIGS. 747A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0006_1;

FIGS. 748A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0002_1;

FIGS. 749A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0003_1;

FIGS. 750A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0013_1;

FIGS. 751A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0003_1;

FIGS. 752A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0018_1;

FIGS. 753A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0012_1;

FIGS. 754A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_2452_0004_1;

FIGS. 755A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_2452_0001_1;

FIGS. 756A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S290_0042_1;

FIGS. 757A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S290_0027_1;

FIGS. 758A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S290_0001_1;

FIGS. 759A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S291_0021_1;

FIGS. 760A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S291_0001_1;

FIGS. 761A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_44_1;

FIGS. 762A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_200155A_21;

FIGS. 763A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_200165A_22;

FIGS. 764A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_200235A_35;

FIGS. 765A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_200015E_01;

FIGS. 766A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000E5E_14;

FIGS. 767A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2002A5E_42;

FIGS. 768A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_200025C_02;

FIGS. 769A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_200155C_21;

FIGS. 770A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_200295C_41;

FIGS. 771A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000160_01;

FIGS. 772A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001560_21;

FIGS. 773A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2002860_40;

FIGS. 774A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_200105A_16;

FIGS. 775A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_200115A_17;

FIGS. 776A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2002B5A_43;

FIGS. 777A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_200015E_01;

FIGS. 778A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001A5E_26;

FIGS. 779A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001B5E_27;

FIGS. 780A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_200155C_21;

FIGS. 781A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_200165C_22;

FIGS. 782A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2002A5C_42;

FIGS. 783A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000160_01;

FIGS. 784A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001460_20;

FIGS. 785A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-merged-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001560_21;

FIGS. 786A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S117_0001_1;

FIGS. 787A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S117_0001_1;

FIGS. 788A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S117_0001_1;

FIGS. 789A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S117_0001_1;

FIGS. 790A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0022_1;

FIGS. 791A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0007_1;

FIGS. 792A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0006_1;

FIGS. 793A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0007_1;

FIGS. 794A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0006_1;

FIGS. 795A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0011_1;

FIGS. 796A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0009_1;

FIG. 797A—respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0032_1;

FIGS. 798A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0031_1;

FIGS. 799A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_20001A8_01;

FIGS. 800A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000DA8_13;

FIGS. 801A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_20019A8_25;

FIGS. 802A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_20001AA_01;

FIGS. 803A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000DAA_13;

FIGS. 804A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_20019AA_25;

FIGS. 805A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000171_01;

FIGS. 806A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002371_35;

FIGS. 807A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004571_69;

FIGS. 808A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004671_70;

FIGS. 809A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2006871_104;

FIGS. 810A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2008A71_138;

FIGS. 811A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200017D_01;

FIGS. 812A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200237D_35;

FIGS. 813A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200457D_69;

FIGS. 814A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200467D_70;

FIGS. 815A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200687D_104;

FIGS. 816A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2008A7D_138;

FIGS. 817A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000189_01;

FIGS. 818A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002389_35;

FIGS. 819A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004589_69;

FIGS. 820A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004689_70;

FIGS. 821A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2006889_104;

FIGS. 822A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2008A89_138;

FIGS. 823A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_200032A_03;

FIGS. 824A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2000192_01;

FIGS. 825A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2000292_02;

FIGS. 826A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2000392_03;

FIGS. 827A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_200019C_01;

FIGS. 828A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_200029C_02;

FIGS. 829A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_200039C_03;

FIGS. 830A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_20001B2_01;

FIGS. 831A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000DB2_13;

FIGS. 832A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_20019B2_25;

FIGS. 833A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2000106_01;

FIGS. 834A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2000178_01;

FIGS. 835A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2000184_01;

FIGS. 836A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S20001DA;

FIGS. 837A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20002DA;

FIGS. 838A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20003DA;

FIGS. 839A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30001A7_001;

FIGS. 840A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30002A7_002;

FIGS. 841A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30003A7_003;

FIGS. 842A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30004A7_004;

FIGS. 843A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30005A7_005;

FIGS. 844A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30006A7_006;

FIGS. 845A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30007A7_007;

FIGS. 846A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30008A7_008;

FIGS. 847A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30009A7_009;

FIGS. 848A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001C6_01;

FIGS. 849A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001C7_01;

FIGS. 850A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001C8_01;

FIGS. 851A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20001C6_01;

FIGS. 852A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20001C7_01;

FIGS. 853A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20001C8_01;

FIGS. 854A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001C6_01;

FIGS. 855A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001C7_01;

FIGS. 856A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001C8_01;

FIGS. 857A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20001C6_01;

FIGS. 858A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20001C7_01;

FIGS. 859A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-side-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20001C8_01;

FIGS. 860A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000134_01;

FIGS. 861A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001034_16;

FIGS. 862A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001F34_31;

FIGS. 863A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000136_01;

FIGS. 864A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001036_16;

FIGS. 865A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001F36_31;

FIGS. 866A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000A38_10;

FIGS. 867A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001238_18;

FIGS. 868A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3002538_37;

FIGS. 869A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3002D38_45;

FIGS. 870A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000130_001;

FIGS. 871A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000C30_012;

FIGS. 872A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2001730_023;

FIGS. 873A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4000160_01;

FIGS. 874A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4000D60_13;

FIGS. 875A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4001960_25;

FIGS. 876A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4001A60_26;

FIGS. 877A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4002660_38;

FIGS. 878A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4003260_50;

FIGS. 879A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_05;

FIGS. 880A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000135_01;

FIGS. 881A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000D35_13;

FIGS. 882A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001935_25;

FIGS. 883A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000135_01;

FIGS. 884A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000D35_13;

FIGS. 885A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001935_25;

FIGS. 886A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000134_01;

FIGS. 887A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000D34_13;

FIGS. 888A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001934_25;

FIGS. 889A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001A34_26;

FIGS. 890A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002634_38;

FIGS. 891A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003234_50;

FIGS. 892A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003334_51;

FIGS. 893A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003F34_63;

FIGS. 894A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3004B34_75;

FIGS. 895A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000134_01;

FIGS. 896A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000D34_13;

FIGS. 897A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001934_25;

FIGS. 898A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001A34_26;

FIGS. 899A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002634_38;

FIGS. 900A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003234_50;

FIGS. 901A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003334_51;

FIGS. 902A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003F34_63;

FIGS. 903A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3004B34_75;

FIGS. 904A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S114_0002_1;

FIGS. 905A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S114_0002_1;

FIGS. 906A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S114_0002_1;

FIGS. 907A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S114_0002_1;

FIGS. 908A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S114_0004_1;

FIGS. 909A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S114_0004_1;

FIGS. 910A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S114_0004_1;

FIGS. 911A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S114_0004_1;

FIGS. 912A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0041_1;

FIGS. 913A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0036_1;

FIGS. 914A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0034_1;

FIGS. 915A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0016_1;

FIGS. 916A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0015_1;

FIGS. 917A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0014_1;

FIGS. 918A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0032_1;

FIGS. 919A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0030_1;

FIGS. 920A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0028_1;

FIGS. 921A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0041_1;

FIGS. 922A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0040_1;

FIGS. 923A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0039_1;

FIGS. 924A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0041_1;

FIGS. 925A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0040_1;

FIGS. 926A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0039_1;

FIGS. 927A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_31_1;

FIGS. 928A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-side-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_34_1;

FIGS. 929A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S122_0001_1;

FIGS. 930A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S122_0001_1;

FIGS. 931A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S122_0001_1;

FIGS. 932A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S122_0001_1;

FIGS. 933A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-side-to-side-short-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_06;

FIGS. 934A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-side-to-side-short-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_07;

FIGS. 935A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-side-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_46_1;

FIGS. 936A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-side-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_64_1;

FIGS. 937A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL4_9S120_0001_1;

FIGS. 938A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL6_9S120_0001_1;

FIGS. 939A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S120_0001_1;

FIGS. 940A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S120_0001_1;

FIGS. 941A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S120_0001_1;

FIGS. 942A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S120_0001_1;

FIGS. 943A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL6_11S100_01_1;

FIGS. 944A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL9_11S100_01_2;

FIGS. 945A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL12_11S100_01_3;

FIGS. 946A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL24_11S100_01_4;

FIGS. 947A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL48_11S100_01_5;

FIGS. 948A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type B_PDF_VCI_FILL72_11S100_01_6;

FIGS. 949A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0038_1;

FIGS. 950A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0010_1;

FIGS. 951A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0052_1;

FIGS. 952A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0051_1;

FIGS. 953A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0050_1;

FIGS. 954A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0049_1;

FIGS. 955A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0012_1;

FIGS. 956A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0011_1;

FIGS. 957A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0010_1;

FIGS. 958A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0009_1;

FIGS. 959A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0009_1;

FIGS. 960A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0008_1;

FIGS. 961A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0006_1;

FIGS. 962A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0007_1;

FIGS. 963A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0009_1;

FIGS. 964A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0008_1;

FIGS. 965A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0007_1;

FIGS. 966A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0006_1;

FIGS. 967A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL04_24S2_0004_1;

FIGS. 968A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL04_24S2_0003_1;

FIGS. 969A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL04_24S2_0002_1;

FIGS. 970A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL04_24S2_0001_1;

FIGS. 971A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL06_24S2_0004_1;

FIGS. 972A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL06_24S2_0003_1;

FIGS. 973A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL06_24S2_0002_1;

FIGS. 974A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL06_24S2_0001_1;

FIGS. 975A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300015C_01;

FIGS. 976A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300055C_05;

FIGS. 977A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300095C_09;

FIGS. 978A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000D5C_13;

FIGS. 979A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_01;

FIGS. 980A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_02;

FIGS. 981A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_03;

FIGS. 982A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_04;

FIGS. 983A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S20001E4;

FIGS. 984A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20002E4;

FIGS. 985A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20003E4;

FIGS. 986A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S20004E4;

FIGS. 987A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20005E4;

FIGS. 988A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20006E4;

FIGS. 989A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S20007E4;

FIGS. 990A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20008E4;

FIGS. 991A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20009E4;

FIGS. 992A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S2000AE4;

FIGS. 993A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000BE4;

FIGS. 994A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000CE4;

FIGS. 995A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30001B1_001;

FIGS. 996A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30005B1_005;

FIGS. 997A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30009B1_009;

FIGS. 998A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000DB1_013;

FIGS. 999A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30011B1_017;

FIGS. 1000A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30015B1_021;

FIGS. 1001A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30019B1_025;

FIGS. 1002A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3001DB1_029;

FIGS. 1003A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30001AD_001;

FIGS. 1004A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30014AD_020;

FIGS. 1005A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30028AD_040;

FIGS. 1006A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30001AE_001;

FIGS. 1007A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30014AE_020;

FIGS. 1008A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30028AE_040;

FIGS. 1009A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30001AF_001;

FIGS. 1010A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30014AF_020;

FIGS. 1011A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30028AF_040;

FIGS. 1012A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL4_3_1;

FIGS. 1013A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_58_1;

FIGS. 1014A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000131_01;

FIGS. 1015A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000231_02;

FIGS. 1016A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000331_03;

FIGS. 1017A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000431_04;

FIGS. 1018A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000531_05;

FIGS. 1019A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000631_06;

FIGS. 1020A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000133_01;

FIGS. 1021A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000933_09;

FIGS. 1022A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001133_17;

FIGS. 1023A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000131_01;

FIGS. 1024A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000231_02;

FIGS. 1025A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000331_03;

FIGS. 1026A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000431_04;

FIGS. 1027A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000531_05;

FIGS. 1028A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000631_06;

FIGS. 1029A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000133_01;

FIGS. 1030A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000933_09;

FIGS. 1031A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001133_17;

FIGS. 1032A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001933_25;

FIGS. 1033A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001D33_29;

FIGS. 1034A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002133_33;

FIGS. 1035A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_3000131_01;

FIGS. 1036A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_3000231_02;

FIGS. 1037A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_3000331_03;

FIGS. 1038A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_3000431_04;

FIGS. 1039A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_3000531_05;

FIGS. 1040A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_3000631_06;

FIGS. 1041A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-snake-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2000168_01;

FIGS. 1042A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-snake-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2000468_04;

FIGS. 1043A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-snake-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2000174_01;

FIGS. 1044A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-snake-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2000474_04;

FIGS. 1045A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-snake-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200016F_01;

FIGS. 1046A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-snake-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000171_01;

FIGS. 1047A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-snake-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000173_01;

FIGS. 1048A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-snake-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000175_01;

FIGS. 1049A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S114_0001_1;

FIGS. 1050A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S114_0001_1;

FIGS. 1051A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S114_0001_1;

FIGS. 1052A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S114_0001_1;

FIGS. 1053A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0035_1;

FIGS. 1054A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_2452_0013_1;

FIGS. 1055A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_2452_0018_1;

FIGS. 1056A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_2452_0038_1;

FIGS. 1057A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_2452_0038_1;

FIGS. 1058A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_2452_0037_1;

FIGS. 1059A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S2000158;

FIGS. 1060A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000258;

FIGS. 1061A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000358;

FIGS. 1062A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S2000458;

FIGS. 1063A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000558;

FIGS. 1064A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000658;

FIGS. 1065A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000121_001;

FIGS. 1066A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-snake-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_32_1;

FIGS. 1067A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-AACNT-snake-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30001BB_001;

FIGS. 1068A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-AACNT-snake-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30002BB_002;

FIGS. 1069A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-AACNT-snake-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S200018A;

FIGS. 1070A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-AACNT-snake-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S200028A;

FIGS. 1071A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-AACNT-snake-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S200038A;

FIGS. 1072A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-stitch-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S116_0001_1;

FIGS. 1073A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-stitch-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S116_0001_1;

FIGS. 1074A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-stitch-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S116_0001_1;

FIGS. 1075A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-stitch-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S116_0001_1;

FIGS. 1076A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-stitch-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0030_1;

FIGS. 1077A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-stitch-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0011_1;

FIGS. 1078A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-stitch-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0011_1;

FIGS. 1079A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-stitch-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0033_1;

FIGS. 1080A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-stitch-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0036_1;

FIGS. 1081A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-stitch-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S295_0016_1;

FIGS. 1082A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-stitch-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S295_0001_1;

FIGS. 1083A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-stitch-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_39_1;

FIGS. 1084A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL6_9S109_0001_1;

FIGS. 1085A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S109_0001_1;

FIGS. 1086A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S109_0001_1;

FIGS. 1087A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S109_0001_1;

FIGS. 1088A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S109_0001_1;

FIGS. 1089A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0059_1;

FIGS. 1090A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0038_1;

FIGS. 1091A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0024_1;

FIGS. 1092A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0007_1;

FIGS. 1093A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0020_1;

FIGS. 1094A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL06_24S2_0005_1;

FIGS. 1095A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_25_1;

FIGS. 1096A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001CA_01;

FIGS. 1097A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20009CA_09;

FIGS. 1098A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20011CA_17;

FIGS. 1099A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001CB_01;

FIGS. 1100A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20009CB_09;

FIGS. 1101A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20011CB_17;

FIGS. 1102A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20001CA_01;

FIGS. 1103A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20009CA_09;

FIGS. 1104A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20011CA_17;

FIGS. 1105A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20001CB_01;

FIGS. 1106A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20009CB_09;

FIGS. 1107A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_20011CB_17;

FIGS. 1108A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001CA_01;

FIGS. 1109A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20009CA_09;

FIGS. 1110A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20011CA_17;

FIGS. 1111A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001CB_01;

FIGS. 1112A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20009CB_09;

FIGS. 1113A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20011CB_17;

FIGS. 1114A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20001CA_01;

FIGS. 1115A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20009CA_09;

FIGS. 1116A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20011CA_17;

FIGS. 1117A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20001CB_01;

FIGS. 1118A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20009CB_09;

FIGS. 1119A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_20011CB_17;

FIGS. 1120A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0101_1;

FIGS. 1121A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL8_12S01_0008_1;

FIGS. 1122A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL8_12S01_0006_1;

FIGS. 1123A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0049_1;

FIGS. 1124A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0047_1;

FIGS. 1125A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0045_1;

FIGS. 1126A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0084_1;

FIGS. 1127A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0083_1;

FIGS. 1128A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0082_1;

FIGS. 1129A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0081_1;

FIGS. 1130A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0080_1;

FIGS. 1131A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0082_1;

FIGS. 1132A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0081_1;

FIGS. 1133A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0080_1;

FIGS. 1134A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0041_1;

FIGS. 1135A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0040_1;

FIGS. 1136A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0039_1;

FIGS. 1137A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0001_1;

FIGS. 1138A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300012A_01;

FIGS. 1139A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300122A_18;

FIGS. 1140A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300232A_35;

FIGS. 1141A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300012C_01;

FIGS. 1142A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300122C_18;

FIGS. 1143A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300232C_35;

FIGS. 1144A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4000110_01;

FIGS. 1145A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4001710_23;

FIGS. 1146A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4000112_01;

FIGS. 1147A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4001712_23;

FIGS. 1148A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_3_1;

FIGS. 1149A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_4_1;

FIGS. 1150A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300013E_01;

FIGS. 1151A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000D3E_13;

FIGS. 1152A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300193E_25;

FIGS. 1153A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000140_01;

FIGS. 1154A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000D40_13;

FIGS. 1155A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001940_25;

FIGS. 1156A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000142_01;

FIGS. 1157A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000D42_13;

FIGS. 1158A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001942_25;

FIGS. 1159A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000144_01;

FIGS. 1160A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000D44_13;

FIGS. 1161A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001944_25;

FIGS. 1162A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000148_01;

FIGS. 1163A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001148_17;

FIGS. 1164A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3002148_33;

FIGS. 1165A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300014A_01;

FIGS. 1166A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300114A_17;

FIGS. 1167A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300214A_33;

FIGS. 1168A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300014C_01;

FIGS. 1169A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300114C_17;

FIGS. 1170A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300214C_33;

FIGS. 1171A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300014E_01;

FIGS. 1172A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300114E_17;

FIGS. 1173A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_300214E_33;

FIGS. 1174A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_400011A_01;

FIGS. 1175A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4000D1A_13;

FIGS. 1176A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4007D1A_125;

FIGS. 1177A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_400011C_01;

FIGS. 1178A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4000D1C_13;

FIGS. 1179A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4004B1C_75;

FIGS. 1180A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20001A8;

FIGS. 1181A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20002A8;

FIGS. 1182A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20003A8;

FIGS. 1183A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20004A8;

FIGS. 1184A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20005A8;

FIGS. 1185A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20006A8;

FIGS. 1186A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S10001F9_001;

FIGS. 1187A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S1000DF9_013;

FIGS. 1188A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S10019F9_025;

FIGS. 1189A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000104_01;

FIGS. 1190A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001004_16;

FIGS. 1191A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001F04_31;

FIGS. 1192A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000105_01;

FIGS. 1193A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001005_16;

FIGS. 1194A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001F05_31;

FIGS. 1195A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2000104_01;

FIGS. 1196A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2001004_16;

FIGS. 1197A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2001F04_31;

FIGS. 1198A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2000105_01;

FIGS. 1199A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2001005_16;

FIGS. 1200A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2001F05_31;

FIGS. 1201A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000181_01;

FIGS. 1202A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2004581_69;

FIGS. 1203A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000183_01;

FIGS. 1204A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4000106_01;

FIGS. 1205A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4000D06_13;

FIGS. 1206A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4001906_25;

FIGS. 1207A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S103_32_1;

FIGS. 1208A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S103_61_1;

FIGS. 1209A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S103_62_1;

FIGS. 1210A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S104_1_1;

1211A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S104_30_1;

FIGS. 1212A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S104_31_1;

FIGS. 1213A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S105_32_1;

FIGS. 1214A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S105_61_1;

FIGS. 1215A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S105_62_1;

FIGS. 1216A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S272_0065_1;

FIGS. 1217A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S272_0002_1;

FIGS. 1218A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S272_0001_1;

FIGS. 1219A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000130_01;

FIGS. 1220A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001030_16;

FIGS. 1221A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001F30_31;

FIGS. 1222A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000106_01;

FIGS. 1223A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001006_16;

FIGS. 1224A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001F06_31;

FIGS. 1225A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000130_01;

FIGS. 1226A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001030_16;

FIGS. 1227A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001F30_31;

FIGS. 1228A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300012D_01;

FIGS. 1229A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300102D_16;

FIGS. 1230A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001F2D_31;

FIGS. 1231A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300012E_01;

FIGS. 1232A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300102E_16;

FIGS. 1233A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001F2E_31;

FIGS. 1234A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000129_01;

FIGS. 1235A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000229_02;

FIGS. 1236A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2000106_01;

FIGS. 1237A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2001006_16;

FIGS. 1238A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2001F06_31;

FIGS. 1239A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S10001FE_001;

FIGS. 1240A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S1000DFE_013;

FIGS. 2141A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S10019FE_025;

FIGS. 1242A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S1001AFE_026;

FIGS. 1243A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20001D0;

FIGS. 1244A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20002D0;

FIGS. 1245A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20003D0;

FIGS. 1246A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20004D0;

FIGS. 1247A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20005D0;

FIGS. 1248A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20006D0;

FIGS. 1249A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000168_01;

FIGS. 1250A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000F68_15;

FIGS. 1251A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001D68_29;

FIGS. 1252A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_200016A_01;

FIGS. 1253A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000F6A_15;

FIGS. 1254A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001D6A_29;

FIGS. 1255A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_200016C_01;

FIGS. 1256A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000F6C_15;

FIGS. 1257A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001D6C_29;

FIGS. 1258A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_3000123_01;

FIGS. 1259A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_3000823_08;

FIGS. 1260A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_3000F23_15;

FIGS. 1261A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_3000125_01;

FIGS. 1262A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_3000825_08;

FIGS. 1263A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-TS-tip-to-side-short-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_3000F25_15;

FIGS. 1264A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S115_0003_1;

FIGS. 1265A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S115_0003_1;

FIGS. 1266A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S115_0003_1;

FIGS. 1267A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S115_0003_1;

FIGS. 1268A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0033_1;

FIGS. 1269A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0032_1;

FIGS. 1270A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0031_1;

FIGS. 1271A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0002_1;

FIGS. 1272A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0001_1;

FIGS. 1273A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0073_1;

FIGS. 1274A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0072_1;

FIGS. 1275A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0033_1;

FIGS. 1276A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0032_1;

FIGS. 1277A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0030_1;

FIGS. 1278A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0029_1;

FIGS. 1279A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0030_1;

FIGS. 1280A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0029_1;

FIGS. 1281A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0010_1;

FIGS. 1282A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0009_1;

FIGS. 1283A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0008_1;

FIGS. 1284A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0010_1;

FIGS. 1285A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0009_1;

FIGS. 1286A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0008_1;

FIGS. 1287A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0024_1;

FIGS. 1288A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0022_1;

FIGS. 1289A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0020_1;

FIGS. 1290A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0035_1;

FIGS. 1291A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0034_1;

FIGS. 1292A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0033_1;

FIGS. 1293A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S156_136_1;

FIGS. 1294A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S156_146_1;

FIGS. 1295A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S157_157_1;

FIGS. 1296A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S157_167_1;

FIGS. 1297A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-side-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_36_1;

FIGS. 1298A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL4_9S110_0001_1;

FIGS. 1299A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S110_0002_1;

FIGS. 1300A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S110_0002_1;

FIGS. 1301A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S110_0002_1;

FIGS. 1302A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S110_0002_1;

FIGS. 1303A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S110_0001_1;

FIGS. 1304A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S110_0001_1;

FIGS. 1305A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S110_0001_1;

FIGS. 1306A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S110_0001_1;

FIGS. 1307A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL8_12S01_0010_1;

FIGS. 1308A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0016_1;

FIGS. 1309A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0030_1;

FIGS. 1310A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0028_1;

FIGS. 1311A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0031_1;

FIGS. 1312A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0030_1;

FIGS. 1313A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0017_1;

FIGS. 1314A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0012_1;

FIGS. 1315A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0011_1;

FIGS. 1316A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0016_1;

FIGS. 1317A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0025_1;

FIGS. 1318A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0024_1;

FIGS. 1319A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL04_24S2_0005_1;

FIGS. 1320A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200015D_01;

FIGS. 1321A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200015E_01;

FIGS. 1322A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200015F_01;

FIGS. 1323A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000161_01;

FIGS. 1324A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL4_2_1;

FIGS. 1325A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_26_1;

FIGS. 1326A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AA-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_27_1;

FIGS. 1327A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL6_9S103_0002_1;

FIGS. 1328A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S103_0002_1;

FIGS. 1329A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S103_0002_1;

FIGS. 1330A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S103_0002_1;

FIGS. 1331A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S103_0002_1;

FIGS. 1332A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL6_9S105_0002_1;

FIGS. 1333A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S105_0002_1;

FIGS. 1334A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S105_0002_1;

FIGS. 1335A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S105_0002_1;

FIGS. 1336A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S105_0002_1;

FIGS. 1337A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0023_1;

FIGS. 1338A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0069_1;

FIGS. 1339A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0058_1;

FIGS. 1340A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0051_1;

FIGS. 1341A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0041_1;

FIGS. 1342A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0037_1;

FIGS. 1343A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0025_1;

FIGS. 1344A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0023_1;

FIGS. 1345A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0034_1;

FIGS. 1346A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0074_1;

FIGS. 1347A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0032_1;

FIGS. 1348A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0072_1;

FIGS. 1349A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0031_1;

FIGS. 1350A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0025_1;

FIGS. 1351A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0030_1;

FIGS. 1352A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0024_1;

FIGS. 1353A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0023_1;

FIGS. 1354A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_2452_0022_1;

FIGS. 1355A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_2452_0042_1;

FIGS. 1356A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_2452_0041_1;

FIGS. 1357A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_2452_0040_1;

FIGS. 1358A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_2452_0038_1;

FIGS. 1359A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_2452_0045_1;

FIGS. 1360A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0044_1;

FIGS. 1361A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0043_1;

FIGS. 1362A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0042_1;

FIGS. 1363A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL06_24S2_0009_1;

FIGS. 1364A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL06_24S2_0008_1;

FIGS. 1365A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL06_24S2_0007_1;

FIGS. 1366A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL06_24S2_0006_1;

FIGS. 1367A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200018D_01;

FIGS. 1368A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200098D_09;

FIGS. 1369A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200018F_01;

FIGS. 1370A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200098F_09;

FIGS. 1371A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000159_01;

FIGS. 1372A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000959_09;

FIGS. 1373A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200015B_01;

FIGS. 1374A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200095B_09;

FIGS. 1375A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200115B_17;

FIGS. 1376A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200017B_01;

FIGS. 1377A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000D7B_13;

FIGS. 1378A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200017D_01;

FIGS. 1379A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000D7D_13;

FIGS. 1380A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S20001B2;

FIGS. 1381A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20002B2;

FIGS. 1382A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20003B2;

FIGS. 1383A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S20004B2;

FIGS. 1384A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20005132;

FIGS. 1385A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20006132;

FIGS. 1386A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30001E3_001;

FIGS. 1387A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30009E3_009;

FIGS. 1388A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30012E3_018;

FIGS. 1389A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3001AE3_026;

FIGS. 1390A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30023E3_035;

FIGS. 1391A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3002BE3_043;

FIGS. 1392A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S200_0033_1;

FIGS. 1393A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S200_0002_1;

FIGS. 1394A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S200_0001_1;

FIGS. 1395A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_6_1;

FIGS. 1396A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_11_1;

FIGS. 1397A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_13_1;

FIGS. 1398A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20009C2_09;

FIGS. 1399A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001C1_01;

FIGS. 1400A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20009C1_09;

FIGS. 1401A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20011C1_17;

FIGS. 1402A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001C1_01;

FIGS. 1403A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20009C1_09;

FIGS. 1404A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20011C1_17;

FIGS. 1405A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20009C2_09;

FIGS. 1406A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_30001F2_01;

FIGS. 1407A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000DF2_13;

FIGS. 1408A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20001BC;

FIGS. 1409A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20002BC;

FIGS. 1410A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S200011C_001;

FIGS. 1411A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000D1C_013;

FIGS. 1412A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S200191C_025;

FIGS. 1413A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S118_0003_1;

FIGS. 1414A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S118_0003_1;

FIGS. 1415A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S118_0003_1;

FIGS. 1416A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S118_0003_1;

FIGS. 1417A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S118_0002_1;

FIGS. 1418A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S118_0002_1;

FIGS. 1419A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S118_0002_1;

FIGS. 1420A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S118_0002_1;

FIGS. 1421A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S118_0001_1;

FIGS. 1422A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S118_0001_1;

FIGS. 1423A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S118_0001_1;

FIGS. 1424A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S118_0001_1;

FIGS. 1425A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0106_1;

FIGS. 1426A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL8_12S01_0004_1;

FIGS. 1427A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL8_12S01_0002_1;

FIGS. 1428A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0016_1;

FIGS. 1429A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0014_1;

FIGS. 1430A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0012_1;

FIGS. 1431A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0029_1;

FIGS. 1432A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0061_1;

FIGS. 1433A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0060_1;

FIGS. 1434A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0015_1;

FIGS. 1435A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0021_1;

FIGS. 1436A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0020_1;

FIGS. 1437A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0010_1;

FIGS. 1438A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0018_1;

FIGS. 1439A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0017_1;

FIGS. 1440A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0023_1;

FIGS. 1441A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0018_1;

FIGS. 1442A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0017_1;

FIGS. 1443A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0028_1;

FIGS. 1444A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0026_1;

FIGS. 1445A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0022_1;

FIGS. 1446A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0021_1;

FIGS. 1447A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0014_1;

FIGS. 1448A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0013_1;

FIGS. 1449A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0009_1;

FIGS. 1450A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_2452_0008_1;

FIGS. 1451A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000168_01;

FIGS. 1452A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000568_05;

FIGS. 1453A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000167_01;

FIGS. 1454A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000169_01;

FIGS. 1455A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200016B_01;

FIGS. 1456A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_400016A_01;

FIGS. 1457A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4000D6A_13;

FIGS. 1458A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_400196A_25;

FIGS. 1459A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_47_1;

FIGS. 1460A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_48_1;

FIGS. 1461A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATE-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_49_1;

FIGS. 1462A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S101_0002_1;

FIGS. 1463A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S101_0002_1;

FIGS. 1464A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S101_0002_1;

FIGS. 1465A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S101_0002_1;

FIGS. 1466A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S101_0001_1;

FIGS. 1467A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S101_0001_1;

FIGS. 1468A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S101_0001_1;

FIGS. 1469A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S101_0001_1;

FIGS. 1470A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S106_0004_1;

FIGS. 1471A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S106_0004_1;

FIGS. 1472A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S106_0004_1;

FIGS. 1473A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S106_0004_1;

FIGS. 1474A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S106_0003_1;

FIGS. 1475A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S106_0003_1;

FIGS. 1476A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S106_0003_1;

FIGS. 1477A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S106_0003_1;

FIGS. 1478A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S106_0002_1;

FIGS. 1479A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S106_0002_1;

FIGS. 1480A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S106_0002_1;

FIGS. 1481A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S106_0002_1;

FIGS. 1482A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0044_1;

FIGS. 1483A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0026_1;

FIGS. 1484A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0079_1;

FIGS. 1485A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0061_1;

FIGS. 1486A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0015_1;

FIGS. 1487A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0013_1;

FIGS. 1488A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0011_1;

FIGS. 1489A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0009_1;

FIGS. 1490A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0029_1;

FIGS. 1491A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0067_1;

FIGS. 1492A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0027_1;

FIGS. 1493A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0026_1;

FIGS. 1494A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0021_1;

FIGS. 1495A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0064_1;

FIGS. 1496A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0019_1;

FIGS. 1497A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0018_1;

FIGS. 1498A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0037_1;

FIGS. 1499A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0035_1;

FIGS. 1500A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0034_1;

FIGS. 1501A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0064_1;

FIGS. 1502A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0041_1;

FIGS. 1503A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0023_1;

FIGS. 1504A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_2452_0039_1;

FIGS. 1505A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_2452_0038_1;

FIGS. 1506A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_2452_0040_1;

FIGS. 1507A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_2452_0036_1;

FIGS. 1508A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_2452_0028_1;

FIGS. 1509A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_2452_0020_1;

FIGS. 1510A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000120_01;

FIGS. 1511A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001320_19;

FIGS. 1512A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3002520_37;

FIGS. 1513A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000122_01;

FIGS. 1514A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001122_17;

FIGS. 1515A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3002122_33;

FIGS. 1516A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000124_01;

FIGS. 1517A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3001124_17;

FIGS. 1518A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3002124_33;

FIGS. 1519A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S20001C6;

FIGS. 1520A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S20002C6;

FIGS. 1521A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S20003C6;

FIGS. 1522A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2000126_001;

FIGS. 1523A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2001026_016;

FIGS. 1524A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2001F26_031;

FIGS. 1525A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S200012B_001;

FIGS. 1526A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S200102B_016;

FIGS. 1527A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S2001F2B_031;

FIGS. 1528A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S240_0012_1;

FIGS. 1529A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S240_0008_1;

FIGS. 1530A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S240_0001_1;

FIGS. 1531A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S241_0018_1;

FIGS. 1532A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S241_0014_1;

FIGS. 1533A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S241_0001_1;

FIGS. 1534A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_75242_0012_1;

FIGS. 1535A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_75242_0009_1;

FIGS. 1536A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_75242_0001_1;

FIGS. 1537A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_75243_0014_1;

FIGS. 1538A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_75243_0011_1;

FIGS. 1539A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_75243_0001_1;

FIGS. 1540A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_15_1;

FIGS. 1541A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_16_1;

FIGS. 1542A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_17_1;

FIGS. 1543A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000103_01;

FIGS. 1544A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2000A03_10;

FIGS. 1545A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_2001303_19;

FIGS. 1546A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000103_01;

FIGS. 1547A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2000A03_10;

FIGS. 1548A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_2001303_19;

FIGS. 1549A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S200019E;

FIGS. 1550A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S200029E;

FIGS. 1551A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S200039E;

FIGS. 1552A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S200049E;

FIGS. 1553A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30001CF_001;

FIGS. 1554A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30005CF_005;

FIGS. 1555A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000BCF_011;

FIGS. 1556A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-tip-to-tip-short-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000FCF_015;

FIGS. 1557A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_10001F5_01;

FIGS. 1558A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_10023F5_35;

FIGS. 1559A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_10045F5_69;

FIGS. 1560A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_10161F5_353;

FIGS. 1561A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_10183F5_387;

FIGS. 1562A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_101A5F5_421;

FIGS. 1563A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200013F_01;

FIGS. 1564A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200233F_35;

FIGS. 1565A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200463F_70;

FIGS. 1566A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200B13F_177;

FIGS. 1567A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200D33F_211;

FIGS. 1568A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200F63F_246;

FIGS. 1569A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000101_01;

FIGS. 1570A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002301_35;

FIGS. 1571A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004501_69;

FIGS. 1572A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2016101_353;

FIGS. 1573A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201B301_387;

FIGS. 1574A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201A501_421;

FIGS. 1575A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200010D_01;

FIGS. 1576A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200230D_35;

FIGS. 1577A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200450D_69;

FIGS. 1578A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201610D_353;

FIGS. 1579A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201B30D_387;

FIGS. 1580A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201A50D_421;

FIGS. 1581A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000119_01;

FIGS. 1582A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002319_35;

FIGS. 1583A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004519_69;

FIGS. 1584A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2016119_353;

FIGS. 1585A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201B319_387;

FIGS. 1586A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201A519_421;

FIGS. 1587A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000125_01;

FIGS. 1588A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002325_35;

FIGS. 1589A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004525_69;

FIGS. 1590A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2016125_353;

FIGS. 1591A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201B325_387;

FIGS. 1592A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201A525_421;

FIGS. 1593A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000127_01;

FIGS. 1594A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002327_35;

FIGS. 1595A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004527_69;

FIGS. 1596A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2016127_353;

FIGS. 1597A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201B327_387;

FIGS. 1598A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201A527_421;

FIGS. 1599A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000133_01;

FIGS. 1600A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002333_35;

FIGS. 1601A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004633_70;

FIGS. 1602A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200B133_177;

FIGS. 1603A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200D333_211;

FIGS. 1604A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200F633_246;

FIGS. 1605A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200024B_02;

FIGS. 1606A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200234B_35;

FIGS. 1607A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200454B_69;

FIGS. 1608A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200B24B_178;

FIGS. 1609A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200D34B_211;

FIGS. 1610A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200F54B_245;

FIGS. 1611A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000257_02;

FIGS. 1612A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002357_35;

FIGS. 1613A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004557_69;

FIGS. 1614A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200B257_178;

FIGS. 1615A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200D357_211;

FIGS. 1616A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200F557_245;

FIGS. 1617A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000159_01;

FIGS. 1618A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002359_35;

FIGS. 1619A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004659_70;

FIGS. 1620A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200B159_177;

FIGS. 1621A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200D359_211;

FIGS. 1622A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200F659_246;

FIGS. 1623A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000165_01;

FIGS. 1624A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002365_35;

FIGS. 1625A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004665_70;

FIGS. 1626A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200B165_177;

FIGS. 1627A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200D365_211;

FIGS. 1628A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-AA-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200F665_246;

FIGS. 1629A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0053_1;

FIGS. 1630A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0052_1;

FIGS. 1631A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0051_1;

FIGS. 1632A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0050_1;

FIGS. 1633A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0094_1;

FIGS. 1634A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0015_1;

FIGS. 1635A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0033_1;

FIGS. 1636A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0029_1;

FIGS. 1637A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0082_1;

FIGS. 1638A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0081_1;

FIGS. 1639A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0079_1;

FIGS. 1640A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0078_1;

FIGS. 1641A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0079_1;

FIGS. 1642A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0078_1;

FIGS. 1643A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0038_1;

FIGS. 1644A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0037_1;

FIGS. 1645A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000122_001;

FIGS. 1646A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S210_0038_1;

FIGS. 1647A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S210_0020_1;

FIGS. 1648A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S210_0019_1;

FIGS. 1649A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S210_0001_1;

FIGS. 1650A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000121_01;

FIGS. 1651A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000D21_13;

FIGS. 1652A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001921_25;

FIGS. 1653A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001A21_26;

FIGS. 1654A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002221_34;

FIGS. 1655A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002A21_42;

FIGS. 1656A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000122_01;

FIGS. 1657A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000D22_13;

FIGS. 1658A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001922_25;

FIGS. 1659A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001A22_26;

FIGS. 1660A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002222_34;

FIGS. 1661A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002A22_42;

FIGS. 1662A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000122_01;

FIGS. 1663A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000D22_13;

FIGS. 1664A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001922_25;

FIGS. 1665A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001A22_26;

FIGS. 1666A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002222_34;

FIGS. 1667A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002A22_42;

FIGS. 1668A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000121_01;

FIGS. 1669A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000D21_13;

FIGS. 1670A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001921_25;

FIGS. 1671A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001A21_26;

FIGS. 1672A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002221_34;

FIGS. 1673A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary AACNT-TS-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002A21_42;

FIGS. 1674A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_30001FC_01;

FIGS. 1675A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_3000DFC_13;

FIGS. 1676A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_30019FC_25;

FIGS. 1677A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4000156_01;

FIGS. 1678A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4000D56_13;

FIGS. 1679A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4001956_25;

FIGS. 1680A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4001A56_26;

FIGS. 1681A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4002656_38;

FIGS. 1682A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_4003256_50;

FIGS. 1683A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S112_0001_1;

FIGS. 1684A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S112_0001_1;

FIGS. 1685A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S112_0001_1;

FIGS. 1686A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S112_0001_1;

FIGS. 1687A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000137_01;

FIGS. 1688A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000D37_13;

FIGS. 1689A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001937_25;

FIGS. 1690A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001A37_26;

FIGS. 1691A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002637_38;

FIGS. 1692A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003237_50;

FIGS. 1693A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003337_51;

FIGS. 1694A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003F37_63;

FIGS. 1695A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3004B37_75;

FIGS. 1696A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3004C37_76;

FIGS. 1697A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3005837_88;

FIGS. 1698A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3006437_100;

FIGS. 1699A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S101_0004_1;

FIGS. 1700A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S101_0004_1;

FIGS. 1701A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S101_0004_1;

FIGS. 1702A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S101_0004_1;

FIGS. 1703A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S101_0003_1;

FIGS. 1704A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S101_0003_1;

FIGS. 1705A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S101_0003_1;

FIGS. 1706A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S101_0003_1;

FIGS. 1707A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S107_0003_1;

FIGS. 1708A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S107_0002_1;

FIGS. 1709A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S107_0003_1;

FIGS. 1710A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S107_0003_1;

FIGS. 1711A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL8_9S111_0001_1;

FIGS. 1712A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL16_9S111_0001_1;

FIGS. 1713A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL32_9S111_0001_1;

FIGS. 1714A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type A_PDF_VCI_FILL64_9S111_0001_1;

FIGS. 1715A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2000140_01;

FIGS. 1716A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2002240_34;

FIGS. 1717A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2004340_67;

FIGS. 1718A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2000146_01;

FIGS. 1719A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2002246_34;

FIGS. 1720A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_16_2004346_67;

FIGS. 1721A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0105_1;

FIGS. 1722A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0037_1;

FIGS. 1723A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0034_1;

FIGS. 1724A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0097_1;

FIGS. 1725A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0088_1;

FIGS. 1726A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0087_1;

FIGS. 1727A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0019_1;

FIGS. 1728A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0083_1;

FIGS. 1729A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0008_1;

FIGS. 1730A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0070_1;

FIGS. 1731A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0001_1;

FIGS. 1732A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0065_1;

FIGS. 1733A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILL4_12S01_0052_1;

FIGS. 1734A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0053_1;

FIGS. 1735A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0051_1;

FIGS. 1736A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0026_1;

FIGS. 1737A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0022_1;

FIGS. 1738A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0021_1;

FIGS. 1739A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0020_1;

FIGS. 1740A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0019_1;

FIGS. 1741A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0018_1;

FIGS. 1742A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0017_1;

FIGS. 1743A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0008_1;

FIGS. 1744A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0007_1;

FIGS. 1745A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0006_1;

FIGS. 1746A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S1_0005_1;

FIGS. 1747A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0084_1;

FIGS. 1748A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0047_1;

FIGS. 1749A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0080_1;

FIGS. 1750A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0079_1;

FIGS. 1751A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0078_1;

FIGS. 1752A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0076_1;

FIGS. 1753A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0077_1;

FIGS. 1754A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0076_1;

FIGS. 1755A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0075_1;

FIGS. 1756A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0073_1;

FIGS. 1757A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0060_1;

FIGS. 1758A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0059_1;

FIGS. 1759A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0058_1;

FIGS. 1760A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0025_1;

FIGS. 1761A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0056_1;

FIGS. 1762A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0057_1;

FIGS. 1763A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0023_1;

FIGS. 1764A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0056_1;

FIGS. 1765A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0054_1;

FIGS. 1766A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0055_1;

FIGS. 1767A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0017_1;

FIGS. 1768A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0053_1;

FIGS. 1769A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0016_1;

FIGS. 1770A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0051_1;

FIGS. 1771A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0084_1;

FIGS. 1772A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0045_1;

FIGS. 1773A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0077_1;

FIGS. 1774A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0076_1;

FIGS. 1775A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0075_1;

FIGS. 1776A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0073_1;

FIGS. 1777A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0057_1;

FIGS. 1778A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0056_1;

FIGS. 1779A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0055_1;

FIGS. 1780A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0033_1;

FIGS. 1781A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0053_1;

FIGS. 1782A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S2_0031_1;

FIGS. 1783A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0051_1;

FIGS. 1784A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0043_1;

FIGS. 1785A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0035_1;

FIGS. 1786A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0036_1;

FIGS. 1787A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0035_1;

FIGS. 1788A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0034_1;

FIGS. 1789A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0032_1;

FIGS. 1790A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0016_1;

FIGS. 1791A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0015_1;

FIGS. 1792A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0014_1;

FIGS. 1793A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0037_1;

FIGS. 1794A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0012_1;

FIGS. 1795A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S2_0036_1;

FIGS. 1796A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0010_1;

FIGS. 1797A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0003_1;

FIGS. 1798A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S2_0045_1;

FIGS. 1799A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S2_0043_1;

FIGS. 1800A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_20001AC_01;

FIGS. 1801A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000DAC_13;

FIGS. 1802A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_20019AC_25;

FIGS. 1803A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_08;

FIGS. 1804A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_09;

FIGS. 1805A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_10;

FIGS. 1806A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type H_PDF_VCI_V16_14S1_13;

FIGS. 1807A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000123_001;

FIGS. 1808A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000223_002;

FIGS. 1809A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000124_001;

FIGS. 1810A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000224_002;

FIGS. 1811A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000125_001;

FIGS. 1812A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000225_002;

FIGS. 1813A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000127_001;

FIGS. 1814A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3001227_018;

FIGS. 1815A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3002327_035;

FIGS. 1816A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3002427_036;

FIGS. 1817A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3003527_053;

FIGS. 1818A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3004627_070;

FIGS. 1819A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000128_001;

FIGS. 1820A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000D28_013;

FIGS. 1821A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3001928_025;

FIGS. 1822A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3001A28_026;

FIGS. 1823A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3002628_038;

FIGS. 1824A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3003228_050;

FIGS. 1825A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000126_001;

FIGS. 1826A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3001226_018;

FIGS. 1827A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3002326_035;

FIGS. 1828A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3002426_036;

FIGS. 1829A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3003526_053;

FIGS. 1830A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3004626_070;

FIGS. 1831A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S101_1_1;

FIGS. 1832A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S101_31_1;

FIGS. 1833A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S102_63_1;

FIGS. 1834A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S102_92_1;

FIGS. 1835A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S102_93_1;

FIGS. 1836A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S111_282_1;

FIGS. 1837A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S111_311_1;

FIGS. 1838A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S111_312_1;

FIGS. 1839A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S112_313_1;

FIGS. 1840A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S112_342_1;

FIGS. 1841A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S112_343_1;

FIGS. 1842A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S113_344_1;

FIGS. 1843A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S113_373_1;

FIGS. 1844A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S113_374_1;

FIGS. 1845A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S114_375_1;

FIGS. 1846A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S114_404_1;

FIGS. 1847A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S114_405_1;

FIGS. 1848A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S270_0046_1;

FIGS. 1849A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S270_0001_1;

FIGS. 1850A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S108_140_1;

FIGS. 1851A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S108_142_1;

FIGS. 1852A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S108_171_1;

FIGS. 1853A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S109_208_1;

FIGS. 1854A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S109_210_1;

FIGS. 1855A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S109_244_1;

FIGS. 1856A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S110_245_1;

FIGS. 1857A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S110_247_1;

FIGS. 1858A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV4_7S110_281_1;

FIGS. 1859A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S271_0083_1;

FIGS. 1860A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S271_0002_1;

FIGS. 1861A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S271_0001_1;

FIGS. 1862A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_1_1;

FIGS. 1863A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_2_1;

FIGS. 1864A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_19_1;

FIGS. 1865A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_28_1;

FIGS. 1866A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_FILL8_29_1;

FIGS. 1867A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300012B_01;

FIGS. 1868A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300102B_16;

FIGS. 1869A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001F2B_31;

FIGS. 1870A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000158_01;

FIGS. 1871A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002458_36;

FIGS. 1872A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2004758_71;

FIGS. 1873A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300012C_01;

FIGS. 1874A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_300102C_16;

FIGS. 1875A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001F2C_31;

FIGS. 1876A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000128_01;

FIGS. 1877A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001028_16;

FIGS. 1878A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001F28_31;

FIGS. 1879A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002028_32;

FIGS. 1880A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002F28_47;

FIGS. 1881A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003E28_62;

FIGS. 1882A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000100_01;

FIGS. 1883A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001000_16;

FIGS. 1884A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001F00_31;

FIGS. 1885A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200015A_01;

FIGS. 1886A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200175A_23;

FIGS. 1887A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002D5A_45;

FIGS. 1888A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000127_01;

FIGS. 1889A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001027_16;

FIGS. 1890A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001F27_31;

FIGS. 1891A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002027_32;

FIGS. 1892A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002F27_47;

FIGS. 1893A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003E27_62;

FIGS. 1894A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003F27_63;

FIGS. 1895A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3004E27_78;

FIGS. 1896A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3005D27_93;

FIGS. 1897A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000101_01;

FIGS. 1898A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001101_17;

FIGS. 1899A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002101_33;

FIGS. 1900A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000103_01;

FIGS. 1901A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001003_16;

FIGS. 1902A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001F03_31;

FIGS. 1903A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001C3_01;

FIGS. 1904A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000AC3_10;

FIGS. 1905A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20013C3_19;

FIGS. 1906A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001C4_01;

FIGS. 1907A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000AC4_10;

FIGS. 1908A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20013C4_19;

FIGS. 1909A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001C5_01;

FIGS. 1910A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000AC5_10;

FIGS. 1911A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20013C5_19;

FIGS. 1912A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000194_01;

FIGS. 1913A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001794_23;

FIGS. 1914A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002D94_45;

FIGS. 1915A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000136_01;

FIGS. 1916A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000D36_13;

FIGS. 1917A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001936_25;

FIGS. 1918A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001A36_26;

FIGS. 1919A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002636_38;

FIGS. 1920A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003236_50;

FIGS. 1921A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003336_51;

FIGS. 1922A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003F36_63;

FIGS. 1923A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3004B36_75;

FIGS. 1924A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3004C36_76;

FIGS. 1925A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3005836_88;

FIGS. 1926A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3006436_100;

FIGS. 1927A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000137_01;

FIGS. 1928A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000D37_13;

FIGS. 1929A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001937_25;

FIGS. 1930A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3001A37_26;

FIGS. 1931A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002637_38;

FIGS. 1932A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003237_50;

FIGS. 1933A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003337_51;

FIGS. 1934A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3003F37_63;

FIGS. 1935A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3004B37_75;

FIGS. 1936A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3004C37_76;

FIGS. 1937A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3005837_88;

FIGS. 1938A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3006437_100;

FIGS. 1939A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001A8_01;

FIGS. 1940A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20017A8_23;

FIGS. 1941A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20018A8_24;

FIGS. 1942A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002EA8_46;

FIGS. 1943A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100012E_01;

FIGS. 1944A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100172E_23;

FIGS. 1945A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100012C_01;

FIGS. 1946A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100242C_36;

FIGS. 1947A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100472C_71;

FIGS. 1948A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300012B_01;

FIGS. 1949A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300102B_16;

FIGS. 1950A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001F2B_31;

FIGS. 1951A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300012C_01;

FIGS. 1952A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_300102C_16;

FIGS. 1953A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001F2C_31;

FIGS. 1954A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000127_01;

FIGS. 1955A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001027_16;

FIGS. 1956A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001F27_31;

FIGS. 1957A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002027_32;

FIGS. 1958A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002F27_47;

FIGS. 1959A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003E27_62;

FIGS. 1960A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003F27_63;

FIGS. 1961A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3004E27_78;

FIGS. 1962A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3005D27_93;

FIGS. 1963A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000128_01;

FIGS. 1964A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001028_16;

FIGS. 1965A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001F28_31;

FIGS. 1966A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002028_32;

FIGS. 1967A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002F28_47;

FIGS. 1968A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003E28_62;

FIGS. 1969A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000136_01;

FIGS. 1970A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000D36_13;

FIGS. 1971A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001936_25;

FIGS. 1972A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3001A36_26;

FIGS. 1973A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002636_38;

FIGS. 1974A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003236_50;

FIGS. 1975A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003336_51;

FIGS. 1976A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3003F36_63;

FIGS. 1977A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3004B36_75;

FIGS. 1978A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3004C36_76;

FIGS. 1979A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3005836_88;

FIGS. 1980A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3006436_100;

FIGS. 1981A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2000100_01;

FIGS. 1982A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2001000_16;

FIGS. 1983A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2001F00_31;

FIGS. 1984A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2000101_01;

FIGS. 1985A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2000601_06;

FIGS. 1986A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001301_11;

FIGS. 1987A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2000103_01;

FIGS. 1988A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2001003_16;

FIGS. 1989A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2001F03_31;

FIGS. 1990A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001A8_01;

FIGS. 1991A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20017A8_23;

FIGS. 1992A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20018A8_24;

FIGS. 1993A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2002EA8_46;

FIGS. 1994A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001C3_01;

FIGS. 1995A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2000AC3_10;

FIGS. 1996A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20013C3_19;

FIGS. 1997A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001C4_01;

FIGS. 1998A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2000AC4_10;

FIGS. 1999A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20013C4_19;

FIGS. 2000A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20001C5_01;

FIGS. 2001A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2000AC5_10;

FIGS. 2002A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_20013C5_19;

FIGS. 2003A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100012E_01;

FIGS. 2004A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100172E_23; FIGS. 2005A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100182E_24;

FIGS. 2006A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000156_01;

FIGS. 2007A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002256_34;

FIGS. 2008A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004356_67;

FIGS. 2009A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004456_68;

FIGS. 2010A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2006556_101;

FIGS. 2011A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2008656_134;

FIGS. 2012A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2008756_135;

FIGS. 2013A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200A856_168;

FIGS. 2014A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200C956_201;

FIGS. 2015A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200CA56_202;

FIGS. 2016A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200EB56_235;

FIGS. 2017A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2010C56_268;

FIGS. 2018A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2010D56_269;

FIGS. 2019A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2012E56_302;

FIGS. 2020A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2014F56_335;

FIGS. 2021A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2015056_336;

FIGS. 2022A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2017156_369;

FIGS. 2023A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2019256_402;

FIGS. 2024A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2019356_403;

FIGS. 2025A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201B456_436;

FIGS. 2026A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201D556_469;

FIGS. 2027A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201D656_470;

FIGS. 2028A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201F756_503;

FIGS. 2029A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2021856_536;

FIGS. 2030A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2021956_537;

FIGS. 2031A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2023A56_570;

FIGS. 2032A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2025B56_603;

FIGS. 2033A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200015C_01;

FIGS. 2034A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200225C_34;

FIGS. 2035A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200435C_67;

FIGS. 2036A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200445C_68;

FIGS. 2037A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200655C_101;

FIGS. 2038A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200865C_134;

FIGS. 2039A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200875C_135;

FIGS. 2040A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200A85C_168;

FIGS. 2041A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200C95C_201;

FIGS. 2042A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200CA5C_202;

FIGS. 2043A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200EB5C_235;

FIGS. 2044A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2010C5C_268;

FIGS. 2045A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2010D5C_269;

FIGS. 2046A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2012E5C_302;

FIGS. 2047A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2014F5C_335;

FIGS. 2048A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201505C_336;

FIGS. 2049A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201715C_369;

FIGS. 2050A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201925C_402;

FIGS. 2051A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201935C_403;

FIGS. 2052A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201B45C_436;

FIGS. 2053A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201D55C_469;

FIGS. 2054A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201D65C_470;

FIGS. 2055A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_201F75C_503;

FIGS. 2056A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_202185C_536;

FIGS. 2057A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_202195C_537;

FIGS. 2058A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2023A5C_570;

FIGS. 2059A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2025B5C_603;

FIGS. 2060A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0007_1;

FIGS. 2061A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0006_1;

FIGS. 2062A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0005_1;

FIGS. 2063A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0004_1;

FIGS. 2064A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0003_1;

FIGS. 2065A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type D_PDF_VCI_VFILLE_12S02_0002_1;

FIGS. 2066A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0017_1;

FIGS. 2067A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0016_1;

FIGS. 2068A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0015_1;

FIGS. 2069A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0014_1;

FIGS. 2070A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0013_1;

FIGS. 2071A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0012_1;

FIGS. 2072A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0011_1;

FIGS. 2073A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0010_1;

FIGS. 2074A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type E_PDF_VCI_FILL8_17S2_0009_1;

FIGS. 2075A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0071_1;

FIGS. 2076A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0070_1;

FIGS. 2077A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0069_1;

FIGS. 2078A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0068_1;

FIGS. 2079A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0067_1;

FIGS. 2080A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0066_1;

FIGS. 2081A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0065_1;

FIGS. 2082A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0064_1;

FIGS. 2083A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL16_24S1_0063_1;

FIGS. 2084A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0031_1;

FIGS. 2085A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0030_1;

FIGS. 2086A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0029_1;

FIGS. 2087A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0028_1;

FIGS. 2088A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0027_1;

FIGS. 2089A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0028_1;

FIGS. 2090A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0026_1;

FIGS. 2091A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0027_1;

FIGS. 2092A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0025_1;

FIGS. 2093A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0026_1;

FIGS. 2094A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0024_1;

FIGS. 2095A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0025_1;

FIGS. 2096A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL64_24S1_0023_1;

FIGS. 2097A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0024_1;

FIGS. 2098A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0023_1;

FIGS. 2099A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0022_1;

FIGS. 2100A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0021_1;

FIGS. 2101A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL08_24S1_0020_1;

FIGS. 2102A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0028_1;

FIGS. 2103A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0027_1;

FIGS. 2104A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0026_1;

FIGS. 2105A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0025_1;

FIGS. 2106A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0024_1;

FIGS. 2107A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0023_1;

FIGS. 2108A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0022_1;

FIGS. 2109A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0021_1;

FIGS. 2110A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type F_PDF_VCI_FILL32_24S1_0020_1;

FIGS. 2111A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30001C2_001;

FIGS. 2112A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000BC2_011;

FIGS. 2113A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30015C2_021;

FIGS. 2114A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30016C2_022;

FIGS. 2115A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30020C2_032;

FIGS. 2116A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3002AC2_042;

FIGS. 2117A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30001C4_001;

FIGS. 2118A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30013C4_019;

FIGS. 2119A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30014C4_020;

FIGS. 2120A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30026C4_038;

FIGS. 2121A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30001C6_001;

FIGS. 2122A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000BC6_011;

FIGS. 2123A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30015C6_021;

FIGS. 2124A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30016C6_022;

FIGS. 2125A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30020C6_032;

FIGS. 2126A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3002AC6_042;

FIGS. 2127A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30001C8_001;

FIGS. 2128A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3000BC8_011;

FIGS. 2129A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30015C8_021;

FIGS. 2130A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30016C8_022;

FIGS. 2131A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S30020C8_032;

FIGS. 2132A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type I_V421_VCI_20S3002AC8_042;

FIGS. 2133A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S282_0134_1;

FIGS. 2134A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S282_0069_1;

FIGS. 2135A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S282_0068_1;

FIGS. 2136A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S163_300_1;

FIGS. 2137A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S163_325_1;

FIGS. 2138A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S162_269_1;

FIGS. 2139A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S162_289_1;

FIGS. 2140A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S164_341_1;

FIGS. 2141A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S164_361_1;

FIGS. 2142A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S165_372_1;

FIGS. 2143A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S165_397_1;

FIGS. 2144A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S166_413_1;

FIGS. 2145A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S166_433_1;

FIGS. 2146A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S167_444_1;

FIGS. 2147A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCVE_7S167_469_1;

FIGS. 2148A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S283_0134_1;

FIGS. 2149A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S283_0069_1;

FIGS. 2150A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S283_0068_1;

FIGS. 2151A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S281_0085_1;

FIGS. 2152A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_75281_0002_1;

FIGS. 2153A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_75281_0001_1;

FIGS. 2154A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_75280_0170_1;

FIGS. 2155A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_75280_0087_1;

FIGS. 2156A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_75280_0086_1;

FIGS. 2157A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200016C_01;

FIGS. 2158A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200226C_34;

FIGS. 2159A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200436C_67;

FIGS. 2160A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000170_01;

FIGS. 2161A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002270_34;

FIGS. 2162A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2004370_67;

FIGS. 2163A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200016E_01;

FIGS. 2164A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200226E_34;

FIGS. 2165A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200436E_67;

FIGS. 2166A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000172_01;

FIGS. 2167A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002272_34;

FIGS. 2168A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2004372_67;

FIGS. 2169A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000148_01;

FIGS. 2170A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000248_02;

FIGS. 2171A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200019E_01;

FIGS. 2172A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200229E_34;

FIGS. 2173A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200439E_67;

FIGS. 2174A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20001A0_01;

FIGS. 2175A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20022A0_34;

FIGS. 2176A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_20043A0_67;

FIGS. 2177A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10001F5_01;

FIGS. 2178A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_1000DF5_13;

FIGS. 2179A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10019F5_25;

FIGS. 2180A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10001F6_01;

FIGS. 2181A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_1000DF6_13;

FIGS. 2182A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10019F6_25;

FIGS. 2183A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10001F7_01;

FIGS. 2184A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_1000DF7_13;

FIGS. 2185A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10019F7_25;

FIGS. 2186A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1000142_01;

FIGS. 2187A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1002242_34;

FIGS. 2188A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1004342_67;

FIGS. 2189A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1000146_01;

FIGS. 2190A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1002246_34;

FIGS. 2191A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1004346_67;

FIGS. 2192A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1000140_01;

FIGS. 2193A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1002240_34;

FIGS. 2194A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1004340_67;

FIGS. 2195A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1000144_01;

FIGS. 2196A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1002244_34;

FIGS. 2197A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1004344_67;

FIGS. 2198A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000148_01;

FIGS. 2199A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000248_02;

FIGS. 2200A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10001F5_01;

FIGS. 2201A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_1000DF5_13;

FIGS. 2202A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10019F5_25;

FIGS. 2203A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10001F6_01;

FIGS. 2204A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_1000DF6_13;

FIGS. 2205A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10019F6_25;

FIGS. 2206A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10001F7_01;

FIGS. 2207A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_1000DF7_13;

FIGS. 2208A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10019F7_25;

FIGS. 2209A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1002142_33;

FIG. 2210C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1002242_34;

FIGS. 2211A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1002342_35;

FIGS. 2212A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1000146_01;

FIGS. 2213A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1001246_18;

FIGS. 2214A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1004346_67;

FIGS. 2215A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1000140_01;

FIGS. 2216A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1002240_34;

FIGS. 2217A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1004340_67;

FIGS. 2218A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1000144_01;

FIGS. 2219A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1002244_34;

FIGS. 2220A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary M1-V0-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1004344_67;

FIGS. 2221A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000176_01;

FIGS. 2222A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002276_34;

FIGS. 2223A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2004376_67;

FIGS. 2224A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000178_01;

FIGS. 2225A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002278_34;

FIGS. 2226A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2004378_67;

FIGS. 2227A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10001FD_01;

FIGS. 2228A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_1000DFD_13;

FIGS. 2229A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10019FD_25;

FIGS. 2230A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10001FE_01;

FIGS. 2231A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_1000DFE_13;

FIGS. 2232A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10019FE_25;

FIGS. 2233A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10001FF_01;

FIGS. 2234A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_1000DFF_13;

FIGS. 2235A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10019FF_25;

FIGS. 2236A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100014A_01;

FIGS. 2237A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100224A_34;

FIGS. 2238A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100434A_67;

FIGS. 2239A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100014C_01;

FIGS. 2240A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100224C_34;

FIGS. 2241A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100434C_67;

FIGS. 2242A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10001FD_01;

FIGS. 2243A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_1000DFD_13;

FIGS. 2244A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10019FD_25;

FIGS. 2245A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10001FE_01;

FIGS. 2246A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_1000DFE_13;

FIGS. 2247A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10019FE_25;

FIGS. 2248A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10001FF_01;

FIGS. 2249A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_1000DFF_13;

FIGS. 2250A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10019FF_25;

FIGS. 2251A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100014A_01;

FIGS. 2252A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100224A_34;

FIGS. 2253A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100434A_67;

FIGS. 2254A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100114C_17;

FIGS. 2255A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100224C_34;

FIGS. 2256A-B respectively depict plan views of—(A) all layers; (B) V0, M1, V1, and M2 layers—of an exemplary M2-V1-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100234C_35;

FIGS. 2257A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200017C_01;

FIGS. 2258A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200227C_34;

FIGS. 2259A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200437C_67;

FIGS. 2260A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200017E_01;

FIGS. 2261A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200227E_34;

FIGS. 2262A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200437E_67;

FIGS. 2263A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1000150_01;

FIGS. 2264A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1002250_34;

FIGS. 2265A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1004350_67;

FIGS. 2266A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1000152_01;

FIGS. 2267A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1002252_34;

FIGS. 2268A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1004352_67;

FIGS. 2269A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1000150_01;

FIGS. 2270A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1002250_34;

FIGS. 2271A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1004350_67;

FIGS. 2272A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1001152_17;

FIGS. 2273A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1002252_34;

FIGS. 2274A-B respectively depict plan views of—(A) all layers; (B) V1, M2, V2, and M3 layers—of an exemplary M3-V2-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1002352_35;

FIGS. 2275A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000180_01;

FIGS. 2276A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002C80_44;

FIGS. 2277A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2005780_87;

FIGS. 2278A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000182_01;

FIGS. 2279A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002C82_44;

FIGS. 2280A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2005782_87;

FIGS. 2281A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000155_01;

FIGS. 2282A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3002955_41;

FIGS. 2283A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1000154_01;

FIGS. 2284A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1002C54_44;

FIGS. 2285A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1005754_87;

FIGS. 2286A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1000156_01;

FIGS. 2287A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1002C56_44;

FIGS. 2288A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1005756_87;

FIGS. 2289A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000155_01;

FIGS. 2290A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3002955_41;

FIGS. 2291A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1000154_01;

FIGS. 2292A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1002C54_44;

FIGS. 2293A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1005754_87;

FIGS. 2294A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1001456_20;

FIGS. 2295A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1004E56_78;

FIGS. 2296A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M4-V3-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1004F56_79;

FIGS. 2297A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200018A_01;

FIGS. 2298A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2003A8A_58;

FIGS. 2299A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200738A_115;

FIGS. 2300A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200018C_01;

FIGS. 2301A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2003A8C_58;

FIGS. 2302A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200738C_115;

FIGS. 2303A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100015E_01;

FIGS. 2304A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1003A5E_58;

FIGS. 2305A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100735E_115;

FIGS. 2306A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1000160_01;

FIGS. 2307A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1003A60_58;

FIGS. 2308A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1007360_115;

FIGS. 2309A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100015E_01;

FIGS. 2310A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1003A5E_58;

FIGS. 2311A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100735E_115;

FIGS. 2312A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1001460_20;

FIGS. 2313A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1004E60_78;

FIGS. 2314A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary M5-V4-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1004F60_79;

FIGS. 2315A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000194_01;

FIGS. 2316A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000196_01;

FIGS. 2317A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000198_01;

FIGS. 2318A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200019A_01;

FIGS. 2319A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200019C_01;

FIGS. 2320A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200019E_01;

FIGS. 2321A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_20001A0_01;

FIGS. 2322A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_20001A2_01;

FIGS. 2323A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_20001A4_01;

FIGS. 2324A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_20001A6_01;

FIGS. 2325A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000195_01;

FIGS. 2326A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000197_01;

FIGS. 2327A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_2000199_01;

FIGS. 2328A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200019B_01;

FIGS. 2329A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200019D_01;

FIGS. 2330A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary TS-AA-via-open-configured, NCEM-enabled fill cell of type G_V931_PDF_VCI_200019F_01;

FIGS. 2331A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S2000194;

FIGS. 2332A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000294;

FIGS. 2333A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000394;

FIGS. 2334A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S2000494;

FIGS. 2335A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000594;

FIGS. 2336A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000694;

FIGS. 2337A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S2000794;

FIGS. 2338A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000894;

FIGS. 2339A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000994;

FIGS. 2340A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL08_19S2000A94;

FIGS. 2341A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL12_19S2000B94;

FIGS. 2342A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type I_PDF_VCI_FILL16_19S2000C94;

FIGS. 2343A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000153_01;

FIGS. 2344A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000153_01;

FIGS. 2345A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000124_01;

FIGS. 2346A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2001624_22;

FIGS. 2347A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002B24_43;

FIGS. 2348A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002C24_44;

FIGS. 2349A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004124_65;

FIGS. 2350A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2005624_86;

FIGS. 2351A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_75285_0021_1;

FIGS. 2352A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_75285_0017_1;

FIGS. 2353A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_75285_0066_1;

FIGS. 2354A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_75284_0138_1;

FIGS. 2355A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_75284_0071_1;

FIGS. 2356A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_75284_0070_1;

FIGS. 2357A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000162_01;

FIGS. 2358A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001862_24;

FIGS. 2359A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002F62_47;

FIGS. 2360A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000164_01;

FIGS. 2361A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002264_34;

FIGS. 2362A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2004364_67;

FIGS. 2363A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1000136_01;

FIGS. 2364A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1001836_24;

FIGS. 2365A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1002F36_47;

FIGS. 2366A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1000138_01;

FIGS. 2367A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1002238_34;

FIGS. 2368A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1004338_67;

FIGS. 2369A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1000136_01;

FIGS. 2370A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1001836_24;

FIGS. 2371A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1002F36_47;

FIGS. 2372A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1000138_01;

FIGS. 2373A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1001238_18;

FIGS. 2374A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-AACNT-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1004338_67;

FIGS. 2375A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000136_01;

FIGS. 2376A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2001636_22;

FIGS. 2377A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002B36_43;

FIGS. 2378A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2002C36_44;

FIGS. 2379A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004136_65;

FIGS. 2380A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2005636_86;

FIGS. 2381A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2005736_87;

FIGS. 2382A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2006C36_108;

FIGS. 2383A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2008136_129;

FIGS. 2384A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2008236_130;

FIGS. 2385A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2009736_151;

FIGS. 2386A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200AC36_172;

FIGS. 2387A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200AD36_173;

FIGS. 2388A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200C236_194;

FIGS. 2389A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200D736_215;

FIGS. 2390A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200D836_216;

FIGS. 2391A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_200ED36_237;

FIGS. 2392A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2010236_258;

FIGS. 2393A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2000BB0_11;

FIGS. 2394A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_20020B0_32;

FIGS. 2395A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_20035B0_53;

FIGS. 2396A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2004AB0_74;

FIGS. 2397A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_2005FB0_95;

FIGS. 2398A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type C_V682_PDF_VCI_08_20074B0_116;

FIGS. 2399A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S286_0194_1;

FIGS. 2400A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S286_0099_1;

FIGS. 2401A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S286_0098_1;

FIGS. 2402A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S287_0067_1;

FIGS. 2403A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type J_PDF_VCI_VFILLCV8_7S287_0066_1;

FIGS. 2404A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000102_01;

FIGS. 2405A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001002_16;

FIGS. 2406A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2001F02_31;

FIGS. 2407A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002002_32;

FIGS. 2408A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002F02_47;

FIGS. 2409A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2003E02_62;

FIGS. 2410A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000168_01;

FIGS. 2411A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002868_40;

FIGS. 2412A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2004F68_79;

FIGS. 2413A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200016A_01;

FIGS. 2414A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_200286A_40;

FIGS. 2415A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2004F6A_79;

FIGS. 2416A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000196_01;

FIGS. 2417A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002896_40;

FIGS. 2418A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2004F96_79;

FIGS. 2419A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2000198_01;

FIGS. 2420A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2002898_40;

FIGS. 2421A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_2004F98_79;

FIGS. 2422A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100013C_01;

FIGS. 2423A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100273C_39;

FIGS. 2424A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1004D3C_77;

FIGS. 2425A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100013E_01;

FIGS. 2426A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_100273E_39;

FIGS. 2427A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_B_PDF_VCI_1004D3E_77;

FIGS. 2428A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2000102_01;

FIGS. 2429A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2001002_16;

FIGS. 2430A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2001F02_31;

FIGS. 2431A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2002002_32;

FIGS. 2432A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2002F02_47;

FIGS. 2433A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_2003E02_62;

FIGS. 2434A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100013C_01;

FIGS. 2435A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100273C_39;

FIGS. 2436A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_1004D3C_77;

FIGS. 2437A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100133E_19;

FIGS. 2438A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100273E_39;

FIGS. 2439A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, and M1 layers—of an exemplary V0-GATECNT-via-open-configured, NCEM-enabled fill cell of type M_V54B_PDF_VCI_100283E_40;

FIGS. 2440A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000152_01;

FIGS. 2441A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000152_01;

FIGS. 2442A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10001F9_01;

FIGS. 2443A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10017F9_23;

FIGS. 2444A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_1002DF9_45;

FIGS. 2445A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10001FA_01;

FIGS. 2446A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10017FA_23;

FIGS. 2447A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_1002DFA_45;

FIGS. 2448A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10001FB_01;

FIGS. 2449A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_10017FB_23;

FIGS. 2450A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type L_V54C_E_PDF_VCI_1002DFB_45;

FIGS. 2451A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10001F9_01;

FIGS. 2452A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10017F9_23;

FIGS. 2453A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_1002DF9_45;

FIGS. 2454A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10001FA_01;

FIGS. 2455A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10017FA_23;

FIGS. 2456A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_1002DFA_45;

FIGS. 2457A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10001FB_01;

FIGS. 2458A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_10017FB_23;

FIGS. 2459A-C respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0, M1, V1, and M2 layers—of an exemplary V1-M1-via-open-configured, NCEM-enabled fill cell of type M_V54A_PDF_VCI_1002DFB_45;

FIGS. 2460A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary V3-via-open-configured, NCEM-enabled fill cell of type K_V549_PDF_VCI_3000154_01; and,

FIGS. 2461A-B respectively depict plan views of—(A) all layers; (B) M3, V3, M4, V4, and M5 layers—of an exemplary V3-via-open-configured, NCEM-enabled fill cell of type L_V54C_M_PDF_VCI_3000154_01.

DESCRIPTION OF EXEMPLARY/PREFERRED EMBODIMENT(S)

Reference is now made to FIG. 1, which depicts an outline of illustrative fill cells suitable for use in connection certain embodiments of the invention, such fill cells are typically provided in a uniform height and various widths, traditionally multiples of the minimum contacted poly pitch (CPP) permitted by the fabrication process. FIG. 1 includes fill cells of width 4 CPP, 8 CPP, 16 CPP, 32 CPP, and 64 CPP, but any collection of widths—or just a single width—is possible. Furthermore, certain embodiments of the invention may include double or triple height fill cells, as well. As persons skilled in the art will appreciate, traditional fill cells include certain features necessary for compatibility with the logic cells used to form circuits on the chip. Such necessary features include a height that is consistent with logic cells in the library (or an integer multiple of that height), as well as power/ground rails that extend horizontally across the fill cells (traditionally, though not necessarily, at the top and bottom of each cell). Such necessary features are preferably maintained in the NCEM-enabled fill cells used in connection with the present invention.

Reference is now made to FIG. 2, which depicts an exemplary standard cell logic section with (shaded) NCEM-enabled fill cells, of various widths. As depicted, the NCEM-enabled fill cells are preferably instantiated wherever a traditional fill cell would otherwise be placed. However, the invention places no restriction on the distribution of such NCEM-enabled fill cells. While they would typically appear in each standard cell row, they need not. The fill cell placement can be regular, semi-regular (e.g., at least one fill cell every X nm, or every Y cells), or irregular. Two fill cells can be adjacent to each other. There may be some double height (or greater) fill cells. And the logic section may include both NCEM-enabled as well as other types of fill cells.

Reference is now made to FIG. 3, which depicts an exemplary standard cell logic section with a row (or portion thereof) that contains NCEM-enabled fill cells, of various widths. As depicted, certain embodiments of the invention may include complete row(s), or contiguous portion(s) thereof, populated entirely with NCEM-enabled fill cells. Such row(s) may include fill cells of varying or fixed widths, and such row(s) may be adjacent or separated, and may be distributed regularly, semi-regularly or irregularly throughout the logic section.

Reference is now made to FIG. 4, which depicts an exemplary standard cell logic section with a test block area (lower right portion) populated with NCEM-enabled fill cells, of various widths. Such test block section(s) need not be entirely contiguous, need not be generally rectangular or square, may include fill cells of a single width or multiple widths, and one or multiple heights.

Reference is now made to FIG. 5, which depicts an exemplary portion of a test chip/wafer comprised of NCEM-enabled fill cells, of various widths. Such test vehicles may comprise a die, a chip, a wafer, or a portion of any of these. Such test vehicles need not be entirely contiguous, may have any overall shape, and may include fill cells of a single width or multiple widths, and one or multiple heights.

Reference is now made to FIG. 6, which conceptually depicts a portion of an exemplary chip/die/wafer with a region comprised only (or almost only) of NCEM-enabled fill cells positioned between two or more standard cell regions (such as those of FIGS. 2-5). As persons skilled in the art will appreciate, FIG. 6 illustrates how various embodiments of the invention may instantiate/distribute the inventive NCEM-enabled fill cells (and DOEs based on them) in any manner whatsoever, and that the distribution patterns—both regular and irregular—may vary throughout different regions of a chip or wafer.

As persons skilled in the art will appreciate, the configurations of FIGS. 2-5 and 6 are mere examples of many available possibilities, and are not intended to be limiting or exhaustive. Furthermore, such skilled persons will appreciate that any given die, chip or wafer may include a combination of these and/or other possible configurations.

Reference is now made to FIG. 7, which depicts cross-sectional, topological view of a monolithic IC structure to which the invention may be applied. This topological view depicts—from bottom to top—three vertically defined portions: (i) substrate; (ii) connector stack; and (iii) interconnect stack.

The substrate preferably comprises a wafer, die, or other portion of monocrystalline silicon, or another substrate suitable for forming semiconductor devices, such as silicon-on-insulator (SOI), Ge, C, GaAs, InP, GalnAs, AlAs, GaSb, (Ga,Mn)As, GaP, GaN, InAS, SiGe, SiSn, CdSe, CdTe, CdHgTe, ZnS, SiC, etc. Generally speaking, the substrate represents the object to which manufacturing steps (e.g., deposition, masking, etching, implantation) are initially applied, and is the object within which, or upon which, switching devices (e.g., FETs, bipolar transistors, photodiodes, magnetic devices, etc.) or storage devices (e.g., charged oxides, capacitors, phase change memories, etc.) are built.

The connector stack is a collection of multiple layers, generally formed on top of the substrate, that supports localized connections between devices in, or on, the substrate, and/or connections to wires in an interconnect stack located above. The layers that make up the connector stack need not be strictly “stacked”; some can be partially or fully co-planar. For example, as illustrated in FIG. 8, which depicts a physical view of an exemplary CMOS layer stack, the source/drain contact and gate contact layers are partially co-planar because they share vertical extent, but on the bottom, the source/drain contact layer extends below the bottom of the gate contact layer, and on the top, the gate contact layer extends above the top of the source/drain contact layer. An example of full co-planarity would be where these two layers had identical vertical extent.

The connector stack supports various types of “connectors” and “jumpers,” as illustrated in FIG. 7. These illustrative connectors and jumpers are not intended to represent individual physical layers, but rather conductive pathways that connect the identified elements. As persons skilled in the art will appreciate, each connector or jumper can be implemented using one or more manufactured “layers,” where some layers may appear as parts of multiple types of connectors/jumpers.

FIG. 7. specifically illustrates the following connectors/jumpers:

-   -   Control element connector         -   A conductive pathway between (i) one or more control             elements and (ii) a wire in the first (e.g., m1) layer of             the interconnect stack. Control element connectors will also             contact any interconnect jumpers, substrate connectors, or             control element jumpers that they cross.     -   Substrate connector         -   A conductive pathway between (i) a portion of the substrate             and (ii) a wire in the first layer of the interconnect             stack. Substrate connectors will also contact any             interconnect jumpers, substrate jumpers, control element             connectors, or control element jumpers that they cross.     -   Substrate jumper         -   A conductive pathway between two portions of the substrate             that would not be connected without the substrate jumper.             Substrate jumpers will also contact any substrate             connectors—but not interconnect jumpers—that they cross.     -   Interconnect jumper         -   A conductive pathway between two wires in the first             interconnect layer that would not be connected without the             interconnect jumper. Interconnect jumpers will also contact             any substrate connectors or control element connectors that             they cross.     -   Control element jumper         -   A conductive pathway between two control elements. Control             element jumpers will also contact any control elements,             control element connectors, or substrate connectors that             they cross.     -   Non-adjacent control element jumper, not depicted in FIG. 7, but         defined as follows:         -   A conductive pathway between two control elements.             Non-adjacent control element jumpers can pass over other             control elements without contacting them. Non-adjacent             control element jumpers will contact any control element             connectors or substrate connectors that they cross.

Above the connector stack lies the interconnect stack. The interconnect stack is comprised of conductive wiring layers (labeled “m1,” “m2,” etc.—that need only be conductive, not necessarily metallic) with conductive vias (labeled “v1,” “v2,” etc.) that connect adjacent wiring layers. While three wiring layers are shown in FIGS. 7-8, it is understood that this number could vary from one to ten or more. Furthermore, while the vias and wiring layers in FIGS. 7-8 are shown as non-overlapping, it is possible for vias to extend into one or both of the wiring layers that they connect, or traverse more than two wiring layers.

Reference is now made to FIG. 8, which depicts a (simplified) layer stack for an exemplary CMOS process, with the correspondence between major regions—substrate, connector stack, interconnect stack—and process layers indicated on the drawing. As depicted in FIG. 8, the substrate hosts the source(s)/drain(s) of the FETs, the device isolation trenches (STI), and a lower portion of the gate(s). The connector stack implements the upper portions of the gate(s), the source/drain silicide(s), source/drain contact(s), gate contact(s), and via(s) to the interconnect stack. The interconnect stack contains multiple wiring (m1, m2, . . . ) layers, with vias (v1, v2, . . . ) between adjacent wiring layers.

The vendor-independent layers of FIG. 8 can be readily mapped to those of commercial CMOS processes, such as GlobalFoundries (“GF”) (see U.S. Pat. Pub. Nos. US2014/0302660A1 and US2015/0170735A1 re the “GF layers”) or Taiwan Semiconductor Manufacturing Co. (“TSMC”) (see U.S. Pat. Pub. No. US2014/0210014A1 re the “TSMC layers”). Below is an exemplary mapping:

FIG. 8 layer GF layer TSMC layer gate (GATE) PC PO source/drain (AA) RX OD source/drain silicide (TS) TS M0_OD1 gate contact (GATECNT) CB M0_PO source/drain contact (AACNT) CA M0_OD2 via to interconnect stack (V0) V0 Via0 first wiring layer (M1) M1 M1 Indicated in parentheses are the names used to label these layers in FIGS. 10, 11, et seq. of this application. Persons skilled in the art will realize that these represent a minority of the many layers/masks/etc. used in the fabrication of modern devices. Nevertheless, these are believed to be the layers most relevant to enabling a skilled artisan to make and use the invention, and are the layers traditionally depicted in patent drawings of semiconductor structures (as shown, for example, by the cited GF and TSMC applications). In certain instances, additional layers may be added to depictions of selected NCEM-enabled fill cells.

Persons skilled in the art will also understand that most of the above layers can—and often are—rendered in multiple patterning steps. Typically, in this application, the drawings will combine all exposures into a single depicted layer (e.g., M1=M1E1+M1E2, or M1E1+M1E2+M1E3). In most cases, such details are irrelevant to the operation of the invention, and are determined largely by requirements of the fabrication process. In certain cases (e.g., an M1-M1-stitch-overlap-open-configured, NCEM-enabled fill cell), some potentially relevant detail(s) may be obscured by the exposure merging; however, such obscured detail(s) will nonetheless be readily apparent to the skilled artisan (by, for example, the fact that the named structure, e.g., M1-M1-stitch-overlap-open-configured, NCEM-enabled fill cell, must contain at least one overlap test region, as per FIG. 32, that is rendered in different exposures of M1, and located on the M1 path between the NCEM pad and ground).

Furthermore, short-configured cells can exist in both “same color” and “different color” varieties. For example, in a process that uses multi-patterned M1, the M1-tip-to-tip-configured, NCEM-enabled fill cells would come in two varieties: M1-tip-to-tip-same-color-short-configured cells, as well as M1-tip-to-tip-different-color-short-configured cells. The same applies to other short configurations, such as side-to-side, diagonal, etc.

Reference is now made to FIGS. 9A-9E, which depict several illustrative designs for a NCEM pad, suitable for use in connection with embodiments of the invention. Additional NCEM pads are disclosed in the incorporated '841 application. FIG. 9A shows a simple, solid conductive pad, typically, though not necessarily, formed in M1. FIGS. 9B-9D depict several options for a non-solid, segmented, single-conductor pad. (As persons skilled in the art will appreciate, the variety of shapes for such pads is endless.) FIG. 9E depicts an example of a presently preferred, multi-conductor, mesh-style pad. Applicants' experimentation has revealed that these mesh-style pad designs—which are more space efficient and design rule friendly than single conductor pads—still produce a usable NCEM, particularly if sampled at low resolution, as taught in the incorporated '841 application. FIGS. 9F-9IIII depict additional embodiments of mesh pad structures. As persons skilled in the art will appreciate, these structures can be rendered in any size (e.g., 2×2, 2×3, 3×2, 3×3, etc.), and not just the specifically depicted 10×9 and 5×2 examples.

Design of the NCEM-Enabled Fill Cells:

Such fill cells preferably have certain common elements (e.g., height, supply rails, and GATE pitch (CPP) that is consistent with standard cells in the library), then vary according to the measurement type, layer(s) involved, and structure(s) to be evaluated/tested. NCEM-enabled fill cells come in two basic types: short[/leakage] and open[/resistance]. Relevant layers typically involve either a single process layer (e.g., GATE-to-GATE) or two process layers (e.g. GATECNT-to-GATE). Structural configurations are many, and include a set of standard structures (e.g., tip-to-tip, tip-to-side, side-to-side, etc.), as well as reference or ad hoc structures.

As depicted in FIGS. 10-11, the general structure of a short[/leakage]-configured, NCEM-enabled fill cell preferably includes four overlaid components: (i) “standard” patterning; (ii) a NCEM pad; (iii) “test gap” patterning; and (iv) pad/ground wiring. Standard patterning is that which appears in essentially all of the standard library cells, such as supply rails, and sometimes minimum contacted poly pitch (CPP) spaced rail-to-rail GATE stripes, etc. The NCEM pads can take a variety of shapes/patterns, as is non-exhaustively exemplified in FIGS. 9A-9IIII. The standard structures used for test gap patterning are depicted in FIGS. 14-30, and may include tip-to-tip, tip-to-side, side-to-side, etc. (Note that a single, short-configured NCEM-enabled fill cell may include more than one test gap, with all gaps preferably wired in parallel via the pad/ground wiring; an example with multiple test gaps appears in FIG. 45). The pad/ground wiring comprises low-resistance wiring from one side of the test gap(s) to the pad, and from the other side of the test gap(s) to a permanent or virtual ground. Points of effective ground include either supply rail, as well as any electrical structure that can conduct to the substrate under appropriate e-beam charging conditions (e.g., a p+ diode to NWELL that becomes positively charged during e-beam measurement). Virtual grounding can be accomplished by connecting to a node with sufficient capacitance to avoid discharge during e-beam measurement, and thus act as a source and/or sink for electrons during the measurement.

As depicted in FIGS. 12-13, the general structure of an open[/resistance]-configured, NCEM-enabled fill cell preferably includes four overlaid components: (i) “standard” patterning; (ii) a NCEM pad; (iii) “test area” patterning; and (iv) pad/ground wiring. As with the shorts, standard patterning is that which appears in essentially all of the standard library cells, such as supply rails, etc. Similarly, the NCEM pads can take a variety of shapes/patterns, as is non-exhaustively exemplified in FIGS. 9A-9IIII. Standard structures used for test structure patterning are depicted in FIGS. 28-36, and may include snake, overlap, stitch, etc. As with the shorts, the pad/ground wiring for opens comprises low-resistance wiring from one side of the test structure patterning to the pad, and from the other side of the test structure patterning to a permanent or virtual ground. Open-configured, NCEM-enabled fill cells can, and often do, include multiple test areas, in which case the pad/ground wiring connects all relevant test structures in a series-connected chain.

In cases where the NCEM-enabled fill cells will be used with a highly regular style cell library, an additional constraint on the NCEM-enabled fill cells is that they preferably conform, as closely as reasonably possible, to the regular patterns used for the library's functional cells. Preferred methods for measuring compliance with regular patterns, and/or constructing pattern-compliant cells, are described in U.S. Pat. Applic. Nos. 61/887,271 (“Template Based Design with LibAnalyzer”) and 62/186,677 (“Template Based Design with LibAnalyzer”), both to Langnese et al., and both incorporated by reference herein. As those skilled in the art will appreciate, close, if not perfect, pattern compliance is feasible for those portions of the fill cell that do not affect the structure(s) or fail mode(s) to be evaluated. In general, however, perfect pattern compliance will prove infeasible for a several reasons. First, the structure to-be-evaluated may not, itself, be an “allowable” pattern (e.g., the pattern rules for the library may not allow any structure that spaces a GATE tip from a GATECNT side at minimum design rule dimensions, thus dictating that the “GATE-GATECNT-tip-to-side-short-configured, NCEM-enabled fill cell” will necessarily include at least one pattern violation). Second, DOEs typically involve several small variations in at least one minimum-spaced dimension, whereas regular patterning rules will typically only permit one of the variants. And third, the patterning used for the NCEM pad is preferably selected to match the operational capabilities of the scanner, but may well violate the library's pattern regularity constraints. Thus, ignoring these “necessary” pattern regularity violations, NCEM-enabled fill cells for use with highly regular libraries will preferably contain very few, if any, additional pattern regularity violations.

Reference is now made to FIGS. 14-15, which depict plan views of two exemplary test area geometries for tip-to-tip-short-configured, NCEM-enabled fill cells. Cells that utilize these geometric configurations may include:

-   -   AA-tip-to-tip-short-configured, NCEM-enabled fill cells [e.g.,         FIGS. 1298-1326];     -   AACNT-tip-to-tip-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 1327-1405];     -   AACNT-AA-tip-to-tip-short-configured, NCEM-enabled fill cells;     -   AACNT-TS-tip-to-tip-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 1406-1412];     -   TS-tip-to-tip-short-configured, NCEM-enabled fill cells;     -   GATE-tip-to-tip-short-configured, NCEM-enabled fill cells [e.g.,         FIGS. 1413-1461];     -   GATECNT-GATE-tip-to-tip-short-configured, NCEM-enabled fill         cells;     -   GATECNT-tip-to-tip-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 1462-1548];     -   GATECNT-AACNT-tip-to-tip-short-configured, NCEM-enabled fill         cells;     -   M1-tip-to-tip-short-configured, NCEM-enabled fill cells [e.g.,         FIGS. 1549-1556];     -   V0-tip-to-tip-short-configured, NCEM-enabled fill cells;     -   M1-V0-tip-to-tip-short-configured, NCEM-enabled fill cells;     -   V1-M1-tip-to-tip-short-configured, NCEM-enabled fill cells;     -   V1-tip-to-tip-short-configured, NCEM-enabled fill cells;     -   M2-tip-to-tip-short-configured, NCEM-enabled fill cells;     -   M2-V1-tip-to-tip-short-configured, NCEM-enabled fill cells;     -   V2-M2-tip-to-tip-short-configured, NCEM-enabled fill cells;     -   M3-tip-to-tip-short-configured, NCEM-enabled fill cells;     -   V2-tip-to-tip-short-configured, NCEM-enabled fill cells; and,     -   M3-V2-tip-to-tip-short-configured, NCEM-enabled fill cells.     -   [As persons skilled in the art will understand, for interconnect         layers 2 and higher, any NCEM-enabled fill cell of type “M_(x)-         . . . ” can also be formed as a corresponding “M_((x+n))- . . .         ” cell, any “V_(x)- . . . ” cell can also be formed as a         corresponding “V_((x+n))- . . . ” cell, any “M_(x)-V_((x+1))- .         . . ” cell can also be formed as a corresponding         “M_((x+n))-V_((x+n+1))- . . . ” cell, and any “M_(x)-V_((x−1))-         . . . ” cell can also be formed as a corresponding         “M_((x+n))-V_((x+n−1))- . . . ” cell, assuming that the         process-in-question supports the referenced interconnect layers.         The present description should be read as including all such         possible higher interconnect layer, and layer combination,         cells, in all available failure types and geometric         configurations.]         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g.,         lateral and/or gap dimension), or by varying other, same- or         adjacent-layer patterning within the expanded test area.

Reference is now made to FIG. 16, which depicts a plan view of exemplary test area geometry for tip-to-side-short-configured, NCEM-enabled fill cells. Cells that utilize this geometric configuration may include:

-   -   AA-tip-to-side-short-configured, NCEM-enabled fill cells;     -   AACNT-tip-to-side-short-configured, NCEM-enabled fill cells         [e.g., FIG. 45];     -   AACNT-AA-tip-to-side-short-configured, NCEM-enabled fill cells;     -   GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 49, 50, 1084-1119];     -   GATECNT-GATE-tip-to-side-short-configured, NCEM-enabled fill         cells [e.g., FIGS. 1201-1238];     -   GATECNT-tip-to-side-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 1120-1149];     -   TS-GATECNT-tip-to-side-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 1239-1263];     -   GATECNT-AACNT-tip-to-side-short-configured, NCEM-enabled fill         cells [FIGS. 1150-1188];     -   GATECNT-AACNT-TS-tip-to-side-short-configured, NCEM-enabled fill         cells [FIGS. 1189-1200];     -   M1-tip-to-side-short-configured, NCEM-enabled fill cells [e.g.,         FIGS. 1264-1297];     -   V0-tip-to-side-short-configured, NCEM-enabled fill cells;     -   M1-V0-tip-to-side-short-configured, NCEM-enabled fill cells;     -   V1-M1-tip-to-side-short-configured, NCEM-enabled fill cells;     -   V1-tip-to-side-short-configured, NCEM-enabled fill cells;     -   M2-tip-to-side-short-configured, NCEM-enabled fill cells;     -   M2-V1-tip-to-side-short-configured, NCEM-enabled fill cells;     -   V2-M2-tip-to-side-short-configured, NCEM-enabled fill cells;     -   M3-tip-to-side-short-configured, NCEM-enabled fill cells;     -   V2-tip-to-side-short-configured, NCEM-enabled fill cells; and,     -   M3-V2-tip-to-side-short-configured, NCEM-enabled fill cells.         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g.,         lateral and/or gap dimension), or by varying other, same- or         adjacent-layer patterning within the expanded test area.

Reference is now made to FIG. 17, which depicts a plan view of exemplary test area geometry for side-to-side-short-configured, NCEM-enabled fill cells. Cells that utilize this geometric configuration may include:

-   -   AA-side-to-side-short-configured, NCEM-enabled fill cells;     -   AACNT-side-to-side-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 786-804];     -   AACNT-AA-side-to-side-short-configured, NCEM-enabled fill cells;     -   AACNT-GATE-side-to-side-short-configured, NCEM-enabled fill         cells [e.g., FIGS. 805-832];     -   GATE-side-to-side-short-configured, NCEM-enabled fill cells         [e.g., FIG. 833-859];     -   GATECNT-GATE-side-to-side-short-configured, NCEM-enabled fill         cells [e.g., FIGS. 886-903];     -   TS-GATE-side-to-side-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 937-1040];     -   GATECNT-side-to-side-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 860-872];     -   GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill         cells [e.g., FIGS. 47(a)-(c), 873-885];     -   M1-side-to-side-short-configured, NCEM-enabled fill cells [e.g.,         FIGS. 904-928];     -   V0-side-to-side-short-configured, NCEM-enabled fill cells;     -   M1-V0-side-to-side-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 929-936];     -   V1-M1-side-to-side-short-configured, NCEM-enabled fill cells;     -   V1-side-to-side-short-configured, NCEM-enabled fill cells;     -   M2-side-to-side-short-configured, NCEM-enabled fill cells;     -   M2-V1-side-to-side-short-configured, NCEM-enabled fill cells;     -   V2-M2-side-to-side-short-configured, NCEM-enabled fill cells;     -   M3-side-to-side-short-configured, NCEM-enabled fill cells;     -   V2-side-to-side-short-configured, NCEM-enabled fill cells; and,     -   M3-V2-side-to-side-short-configured, NCEM-enabled fill cells.         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g.,         lateral and/or gap dimension), or by varying other, same- or         adjacent-layer patterning within the expanded test area.

Reference is now made to FIGS. 18, 19, 20, 21, and 22, each of which depicts a plan view of exemplary test area geometry for L-shape-interlayer-short-configured, NCEM-enabled fill cells. Cells that utilize these geometric configurations may include:

-   -   AA-L-shape-interlayer-short-configured, NCEM-enabled fill cells;     -   AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   AACNT-AA-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   GATE-AA-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   GATE-TS-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   GATECNT-GATE-L-shape-interlayer-short-configured, NCEM-enabled         fill cells;     -   GATECNT-AA-L-shape-interlayer-short-configured, NCEM-enabled         fill cells;     -   GATECNT-TS-L-shape-interlayer-short-configured, NCEM-enabled         fill cells;     -   GATECNT-AACNT-L-shape-interlayer-short-configured, NCEM-enabled         fill cells;     -   V0-AA-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   V0-TS-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   V0-AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   V0-GATE-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   V0-GATECNT-L-shape-interlayer-short-configured, NCEM-enabled         fill cells;     -   M1-AACNT-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   M1-GATECNT-L-shape-interlayer-short-configured, NCEM-enabled         fill cells;     -   M1-V0-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   V1-M1-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   V1-V0-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   M2-M1-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   M2-V1-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   V2-V1-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   V2-M2-L-shape-interlayer-short-configured, NCEM-enabled fill         cells;     -   M3-M2-L-shape-interlayer-short-configured, NCEM-enabled fill         cells; and,     -   M3-V2-L-shape-interlayer-short-configured, NCEM-enabled fill         cells.         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area, or by         varying other, same- or adjacent-layer patterning within the         expanded test area.

Reference is now made to FIG. 23, which depicts a plan view of exemplary test area geometry for diagonal-short-configured, NCEM-enabled fill cells. Cells that utilize this geometric configuration may include:

-   -   AA-diagonal-short-configured, NCEM-enabled fill cells;     -   TS-diagonal-short-configured, NCEM-enabled fill cells;     -   AACNT-diagonal-short-configured, NCEM-enabled fill cells;     -   AACNT-AA-diagonal-short-configured, NCEM-enabled fill cells;     -   GATE-diagonal-short-configured, NCEM-enabled fill cells;     -   GATE-AACNT-diagonal-short-configured, NCEM-enabled fill cells;     -   GATECNT-GATE-diagonal-short-configured, NCEM-enabled fill cells;     -   GATECNT-diagonal-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 495-554];     -   GATECNT-AACNT-diagonal-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 555-632];     -   M1-diagonal-short-configured, NCEM-enabled fill cells;     -   V0-diagonal-short-configured, NCEM-enabled fill cells;     -   M1-V0-diagonal-short-configured, NCEM-enabled fill cells;     -   V1-M1-diagonal-short-configured, NCEM-enabled fill cells;     -   V1-diagonal-short-configured, NCEM-enabled fill cells;     -   M2-diagonal-short-configured, NCEM-enabled fill cells;     -   M2-V1-diagonal-short-configured, NCEM-enabled fill cells;     -   M3-diagonal-short-configured, NCEM-enabled fill cells;     -   V2-M2-diagonal-short-configured, NCEM-enabled fill cells;     -   V2-diagonal-short-configured, NCEM-enabled fill cells; and,     -   M3-V2-diagonal-short-configured, NCEM-enabled fill cells.         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g., gap         dimension and/or gap angle), or by varying other, same- or         adjacent-layer patterning within the expanded test area.

Reference is now made to FIGS. 24, 25, and 26, each of which depicts a plan view of exemplary test area geometry for corner-short-configured, NCEM-enabled fill cells. These configurations differ from the diagonal configuration because, in these corner configurations, at least one of the first and/or second features is non-rectangular. Cells that utilize these geometric configurations may include:

-   -   AA-corner-short-configured, NCEM-enabled fill cells;     -   AACNT-corner-short-configured, NCEM-enabled fill cells;     -   AACNT-AA-corner-short-configured, NCEM-enabled fill cells;     -   GATE-corner-short-configured, NCEM-enabled fill cells;     -   GATECNT-GATE-corner-short-configured, NCEM-enabled fill cells;     -   GATECNT-TS-corner-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 287-685];     -   GATECNT-corner-short-configured, NCEM-enabled fill cells;     -   GATECNT-AA-corner-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 263-286];     -   GATECNT-AACNT-corner-short-configured, NCEM-enabled fill cells;     -   M1-corner-short-configured, NCEM-enabled fill cells [e.g., FIGS.         416-494];     -   V0-corner-short-configured, NCEM-enabled fill cells;     -   M1-V0-corner-short-configured, NCEM-enabled fill cells;     -   V1-M1-corner-short-configured, NCEM-enabled fill cells;     -   V1-corner-short-configured, NCEM-enabled fill cells;     -   M2-corner-short-configured, NCEM-enabled fill cells;     -   M2-V1-corner-short-configured, NCEM-enabled fill cells;     -   M3-corner-short-configured, NCEM-enabled fill cells;     -   V2-M2-corner-short-configured, NCEM-enabled fill cells;     -   V2-corner-short-configured, NCEM-enabled fill cells; and,     -   M3-V2-corner-short-configured, NCEM-enabled fill cells.         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g., gap         dimension and/or gap angle), or by varying other, same- or         adjacent-layer patterning within the expanded test area.

Reference is now made to FIG. 27, which depicts a plan view of exemplary test area geometry for interlayer-overlap-short-configured, NCEM-enabled fill cells. Cells that utilize this geometric configuration may include:

-   -   GATE-AA-interlayer-overlap-short-configured, NCEM-enabled fill         cells [e.g., FIGS. 692-734];     -   GATE-AACNT-interlayer-overlap-short-configured, NCEM-enabled         fill cells [e.g., FIGS. 633-691];     -   GATE-TS-interlayer-overlap-short-configured, NCEM-enabled fill         cells;     -   GATECNT-TS-interlayer-overlap-short-configured, NCEM-enabled         fill cells;     -   GATECNT-AA-interlayer-overlap-short-configured, NCEM-enabled         fill cells;     -   V0-AA-interlayer-overlap-short-configured, NCEM-enabled fill         cells;     -   V0-AACNT-interlayer-overlap-short-configured, NCEM-enabled fill         cells;     -   V0-TS-interlayer-overlap-short-configured, NCEM-enabled fill         cells;     -   V0-GATE-interlayer-overlap-short-configured, NCEM-enabled fill         cells;     -   M1-GATECNT-interlayer-overlap-short-configured, NCEM-enabled         fill cells;     -   M1-AACNT-interlayer-overlap-short-configured, NCEM-enabled fill         cells;     -   V1-V0-interlayer-overlap-short-configured, NCEM-enabled fill         cells;     -   M2-M1-interlayer-overlap-short-configured, NCEM-enabled fill         cells;     -   V2-V1-interlayer-overlap-short-configured, NCEM-enabled fill         cells; and,     -   M3-M2-interlayer-overlap-short-configured, NCEM-enabled fill         cells.         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g.,         major and/or minor dimension), or by varying other, same- or         adjacent-layer patterning within the expanded test area.

Reference is now made to FIG. 28, which depicts a plan view of exemplary test area geometry for via-chamfer-short-configured, NCEM-enabled fill cells. Cells that utilize this geometric configuration may include:

-   -   V0-GATECNT-via-chamfer-short-configured, NCEM-enabled fill         cells;     -   V0-AACNT-via-chamfer-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 52-256];     -   V1-M1-via-chamfer-short-configured, NCEM-enabled fill cells;     -   V2-M2-via-chamfer-short-configured, NCEM-enabled fill cells;         and,     -   V3-M3-via-chamfer-short-configured, NCEM-enabled fill cells         [e.g., FIGS. 257-262].         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g., gap         and/or lateral dimension), or by varying other, same- or         adjacent-layer patterning within the expanded test area.

Reference is now made to FIG. 29, which depicts a plan view of exemplary test area geometry for merged-via-short-configured, NCEM-enabled fill cells. Cells that utilize this geometric configuration may include:

-   -   V0-merged-via-short-configured, NCEM-enabled fill cells;     -   V1-merged-via-short-configured, NCEM-enabled fill cells; and,     -   V2-merged-via-short-configured, NCEM-enabled fill cells.         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g., gap         and/or lateral dimension), or by varying other, same- or         adjacent-layer patterning within the expanded test area.

Reference is now made to FIG. 30, which depicts a plan view of exemplary test area geometry for snake-open-configured, NCEM-enabled fill cells. Cells that utilize this geometric configuration may include:

-   -   AA-snake-open-configured, NCEM-enabled fill cells;     -   TS-snake-open-configured, NCEM-enabled fill cells;     -   AACNT-snake-open-configured, NCEM-enabled fill cells;     -   GATE-snake-open-configured, NCEM-enabled fill cells [e.g., FIGS.         1041-1048];     -   GATECNT-snake-open-configured, NCEM-enabled fill cells;     -   V0-snake-open-configured, NCEM-enabled fill cells;     -   M1-snake-open-configured, NCEM-enabled fill cells [e.g., FIGS.         44, 1049-1066];     -   M1-V0-AACNT-snake-open-configured, NCEM-enabled fill cells         [e.g., FIGS. 1067-1071];     -   V1-snake-open-configured, NCEM-enabled fill cells;     -   M2-snake-open-configured, NCEM-enabled fill cells;     -   V2-snake-open-configured, NCEM-enabled fill cells; and,     -   M3-snake-open-configured, NCEM-enabled fill cells.         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g.,         length, width, spacing, etc.), or by varying other, same- or         adjacent-layer patterning within the expanded test area.

Reference is now made to FIGS. 31-32, which each depict plan views of exemplary test area geometries for stitch-open-configured, NCEM-enabled fill cells. Cells that utilize these geometric configurations may include:

-   -   AA-stitch-open-configured, NCEM-enabled fill cells;     -   TS-stitch-open-configured, NCEM-enabled fill cells;     -   AACNT-stitch-open-configured, NCEM-enabled fill cells;     -   GATECNT-stitch-open-configured, NCEM-enabled fill cells;     -   V0-stitch-open-configured, NCEM-enabled fill cells;     -   M1-stitch-open-configured, NCEM-enabled fill cells [e.g., FIGS.         1072-1083];     -   V1-stitch-open-configured, NCEM-enabled fill cells;     -   M2-stitch-open-configured, NCEM-enabled fill cells;     -   V2-stitch-open-configured, NCEM-enabled fill cells; and,     -   M3-stitch-open-configured, NCEM-enabled fill cells.         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g.,         major and/or minor dimension), or by varying other, same- or         adjacent-layer patterning within the expanded test area.

Reference is now made to FIG. 33, which depicts a plan view of exemplary test area geometry for via-open-configured, NCEM-enabled fill cells. Cells that utilize this geometric configuration may include:

-   -   AACNT-TS-via-open-configured, NCEM-enabled fill cells [e.g.,         FIGS. 1629-1673];     -   AACNT-AA-via-open-configured, NCEM-enabled fill cells [FIGS.         1557-1628];     -   TS-AA-via-open-configured, NCEM-enabled fill cells [e.g., FIGS.         2315-2330];     -   GATECNT-GATE-via-open-configured, NCEM-enabled fill cells [e.g.,         FIGS. 48, 1699-2005];     -   GATECNT-AACNT-via-open-configured, NCEM-enabled fill cells         [e.g., FIGS. 1674-1682];     -   GATECNT-AACNT-GATE-via-open-configured, NCEM-enabled fill cells         [e.g., FIGS. 1683-1698];     -   V0-GATECNT-via-open-configured, NCEM-enabled fill cells [e.g.,         FIGS. 2375-2439];     -   V0-AA-via-open-configured, NCEM-enabled fill cells;     -   V0-TS-via-open-configured, NCEM-enabled fill cells;     -   V0-AACNT-via-open-configured, NCEM-enabled fill cells [e.g.,         FIGS. 2345-2374];     -   V0-GATE-via-open-configured, NCEM-enabled fill cells;     -   V0-via-open-configured, NCEM-enabled fill cells [e.g., FIGS.         2331-2344];     -   M1-V0-via-open-configured, NCEM-enabled fill cells [e.g., FIGS.         2006-2200];     -   V1-via-open-configured, NCEM-enabled fill cells [e.g., FIGS.         2440-2441];     -   V1-M1-via-open-configured, NCEM-enabled fill cells [e.g., FIGS.         2442-2459];     -   V1-M2-via-open-configured, NCEM-enabled fill cells [e.g., FIGS.         2221-2256];     -   M1-GATECNT-via-open-configured, NCEM-enabled fill cells;     -   M1-AANCT-via-open-configured, NCEM-enabled fill cells;     -   V2-M2-via-open-configured, NCEM-enabled fill cells;     -   V2-M3-via-open-configured, NCEM-enabled fill cells [e.g., FIGS.         2257-2274];     -   V3-via-open-configured, NCEM-enabled fill cells [e.g., FIGS.         2460-2461];     -   M4-V3-via-open-configured, NCEM-enabled fill cells [e.g., FIGS.         2275-2296]; and,     -   M5-V4-via-open-configured, NCEM-enabled fill cells [e.g., FIGS.         2297-2314].         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g.,         upper extension, lower extension, and/or via size/shape), or by         varying other, same- or adjacent-layer patterning within the         expanded test area.

Reference is now made to FIGS. 34 and 35, which respectively depict plan and cross-sectional views of exemplary test area geometry for metal-island-open-configured, NCEM-enabled fill cells. Cells that utilize this geometric configuration may include:

-   -   M1-metal-island-open-configured, NCEM-enabled fill cells;     -   M2-metal-island-open-configured, NCEM-enabled fill cells; and,     -   M3-metal-island-open-configured, NCEM-enabled fill cells.         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g.,         major extension, minor extension, and/or size(s)/shape(s) of         lower and/or upper stacked vias), or by varying other, same- or         adjacent-layer patterning within the expanded test area.

Reference is now made to FIG. 36, which depicts a plan view of exemplary test area geometry for merged-via-open-configured, NCEM-enabled fill cells. Cells that utilize this geometric configuration may include:

-   -   V0-merged-via-open-configured, NCEM-enabled fill cells [e.g.,         FIGS. 735-785];     -   V0-AACNT-merged-via-open-configured, NCEM-enabled fill cells;     -   V0-GATECNT-merged-via-open-configured, NCEM-enabled fill cells;     -   V1-merged-via-open-configured, NCEM-enabled fill cells;     -   V2-merged-via-open-configured, NCEM-enabled fill cells;     -   V1-M1-merged-via-open-configured, NCEM-enabled fill cells; and,     -   V2-M2-merged-via-open-configured, NCEM-enabled fill cells.         DOEs of these structures are preferably constructed by varying         the dimensional parameters that define the test area (e.g., gap         dimension, lateral dimension, and/or size/shape of one or both         vias), or by varying other, same- or adjacent-layer patterning         within the expanded test area.

Reference is now made to FIG. 37, which shows exemplary expanded test area geometry from a 1^(st) variant of a NCEM-enabled fill cell, and to FIG. 38, which shows exemplary expanded test area geometry from a 2^(nd) variant of a NCEM-enabled fill cell. These figures, and the two that follow, illustrate the computation of the PSR between (the depicted layer, which could be any layer, of) the 1^(st) variant and the 2^(nd) variant. FIG. 39 shows the logical AND of (depicted layer) patterning within both expanded test areas (of FIGS. 37 & 38). FIG. 40 shows the logical OR of patterning within both expanded test areas (of FIGS. 37 & 38). The PSR (pattern similarity ratio) is then defined as the area ratio of the AND patterns to the OR patterns. Conceptually, PSR is a measure of how much of the patterning within the common expanded test areas is new. In other words, if the two cells are identical (within the layer(s)-at-issue, and within the common expanded test area), then the PSR will be 1.0. Conversely, if they share no common patterning (within the layer(s)-at-issue, and within the common expanded test area), then the AND patterns will be nil, and the PSR will be 0.0.

Reference is now made to FIG. 41, which depicts an exemplary process flow, suitable for use in connection with certain embodiments of the invention. At FF1, an initial set of product masks is produced (or otherwise obtained); these initial product masks include a first collection of NCEM-enabled fill cells.

At FF2, processing of wafers is initiated using the initial product masks. Such processing preferably includes at least FEOL and/or MOL processing, but may also include BEOL processing. Before FF3, NCEM measurements are preferably obtained from some or all of the NCEM-enabled fill cells on the partially-processed initial product wafers.

At FF3, some or all of the obtained NCEM measurements are “used” to continue processing of the initial product wafers. Such “use” may include determining whether to continue or abandon processing of one or more of the wafers, modifying one or more processing, inspection or metrology steps in the continued processing of one or more of the wafers (and/or other product wafers currently being manufactured using process flows relevant to observed manufacturing failures), and/or performing additional processing, metrology or inspection steps on one or more of the wafers (and/or other product wafers currently being manufactured using process flows relevant to observed manufacturing failures).

At FF4, final product masks are produced (or otherwise obtained) “using” at least some of the NCEM measurements obtained during the processing of initial product wafers. Here, such “use” preferably includes selecting and instantiating a second collection of NCEM-enabled fill cells that is better and/or optimally matched to failure modes observed during processing of the initial product wafers. For example, if the first collection of NCEM-enabled fill cells included GATE-side-to-side-short-configured cells, yet no GATE side-to-side shorts were observed during processing of the initial product wafers, then the second collection of NCEM-enabled fill cells would preferably omit GATE-side-to-side-short-configured cells, and instead replace them with other NCEM-enabled fill cells that are better matched to the observed or expected failure modes on the final product wafers.

At FF5, processing of wafers is initiated using the final product masks. Such processing preferably includes at least FEOL and/or MOL processing, but may also include BEOL processing. Before FF6, NCEM measurements are preferably obtained from some or all of the NCEM-enabled fill cells on the partially-processed final product wafers.

At FF6, some or all of the obtained NCEM measurements are “used” to continue processing of the final product wafers. Such “use” may include determining whether to continue or abandon processing of one or more of the wafers, modifying one or more processing, inspection or metrology steps in the continued processing of one or more of the wafers (and/or other product wafers currently being manufactured using process flows relevant to observed manufacturing failures), and/or performing additional processing, metrology or inspection steps on one or more of the wafers (and/or other product wafers currently being manufactured using process flows relevant to observed manufacturing failures).

Reference is now made to FIG. 42, which depicts an exemplary process flow for obtaining and (optionally) using measurements from mesh-style NCEM pads. As persons skilled in the art will appreciate, this process can be utilized either with or without NCEM-enabled fill cells; in other words, the mesh-style NCEM pads can be instantiated within NCEM-enabled fill cells, but can also be instantiated anywhere on a chip, die, or wafer. Furthermore, as persons skilled in the art will also appreciate, the order of steps FF7 & FF8 can be reversed, or performed simultaneously, to accommodate processes where the order of AACNT & GATECNT patterning is different.

Reference is now made to FIG. 43, which depicts another exemplary process flow, suitable for use in accordance with certain embodiments of the invention. At GG1, test mask (e.g., masks to produce a “test” or “engineering” wafer) are produced or otherwise obtained; such test masks include a first collection of NCEM-enabled fill cells.

At GG2, processing of the test wafer(s) is initiated. Such processing preferably includes FEOL and/or MOL processing, but may also include BEOL processing.

At GG3, NCEM measurements are obtained from NCEM-enabled fill cells on the partially-processed test wafer(s).

At GG4, the obtained measurements are “used” to select a second collection of NCEM-enabled fill cells (preferably a subset of the first collection) for instantiation on product wafers. Here, such “use” preferably includes selecting a second collection of NCEM-enabled fill cells that, given the available fill cell space on the product wafers, is optimally matched to failure modes observed during processing of the test product wafers. For example, if the first collection of NCEM-enabled fill cells included GATE-side-to-side-short-configured cells, yet no GATE side-to-side shorts were observed during processing of test wafers, then the second collection of NCEM-enabled fill cells would preferably omit GATE-side-to-side-short-configured cells.

At GG5, product masks that include the second collection of NCEM-enabled fill cells are produced, or otherwise obtained.

At GG6, processing of the product wafer(s) is initiated. Such processing preferably includes at least FEOL and/or MOL processing, but may also include BEOL processing. Prior to GG7, NCEM measurements are obtained from at least some of the NCEM-enabled fill cells on the partially-processed product wafer(s).

At GG7, some or all of the obtained NCEM measurements are “used” to continue processing of the product wafer(s). Such “use” may include determining whether to continue or abandon processing of one or more of the product wafers, modifying one or more processing, inspection or metrology steps in the continued processing of one or more of the product wafers (and/or other product wafers currently being manufactured using process flows relevant to observed manufacturing failures), and/or performing additional processing, metrology or inspection steps on one or more of the product wafers (and/or other product wafers currently being manufactured using process flows relevant to observed manufacturing failures).

In certain embodiments, FF1-3 and/or GG5-7 could be practiced as stand-alone process flows.

Reference is now made to FIG. 44, which depicts a plan view of an exemplary M1-snake-open-configured, NCEM-enabled fill cell. This cell contains a left-facing-E-shaped NCEM pad, a snake-open-configured test area, and is NCEM-enabled to detect the following failure mode: M1 snake open. In the depicted configuration, a passing response is grounded metal=bright NCEM, whereas a failing response is floating pad=dark NCEM.

Reference is now made to FIG. 45, which depicts a plan view of an exemplary AACNT-tip-to-side-short-configured, NCEM-enabled fill cell. This cell contains four test areas, and an E-shaped NCEM pad that overlies the test areas. It is NC-configured for inline measurement of the following failure mode: AACNT tip-to-side short. In the depicted configuration, a passing response is floating AA contacts=dark NCEM, whereas a failing response is a short to grounded contact layer=bright NCEM.

Reference is now made to FIGS. 46A-C, which respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0 and M1 layers—of an exemplary TS-GATE-side-to-side-short-configured, NCEM-enabled fill cell of type PDF_D_VCI_V16_14S1_01. This cell utilizes a composite NCEM pad, as depicted in FIG. 9E.

Reference is now made to FIGS. 47A-C, which respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0 and M1 layers—of an exemplary GATECNT-AACNT-side-to-side-short-configured, NCEM-enabled fill cell of type PDF_D_VCI_V16_14S1_05. This cell also utilizes a composite NCEM pad.

Reference is now made to FIGS. 48A-C, which respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0 and M1 layers—of an exemplary GATECNT-GATE-via-open-configured, NCEM-enabled fill cell of type PDF_D_VCI_V16_14S1_08. This cell also utilizes a composite NCEM pad.

Reference is now made to FIGS. 49A-C, which respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0 and M1 layers—of an exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type PDF_D_VCI_V16_14S1_11. This cell also utilizes a composite NCEM pad.

Reference is now made to FIGS. 50(A)-(C), which respectively depict plan views of—(A) all layers; (B) NWELL, AA, GATE, GATECNT, TS, and AACNT layers; (C) V0 and M1 layers—of another exemplary GATE-AA-tip-to-side-short-configured, NCEM-enabled fill cell of type PDF_D_VCI_V16_14S1_12. This cell also utilizes a composite NCEM pad.

FIGS. 52A-C, 53A-C, 54A-C, et seq., which depict additional examples of NCEM-enabled fill cells, utilize the same layer shadings/patterns depicted in FIG. 51.

FIGS. 160-162 depict three variants of the same cell. FIGS. 161(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 163-165 depict three variants of the same cell. FIGS. 164(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 166-168 depict three variants of the same cell. FIGS. 167(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 169-171 depict three variants of the same cell. FIGS. 170(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 172-173 depict two variants of the same cell. FIGS. 173(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 174-175 depict two variants of the same cell. FIGS. 175(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 176-177 depict two variants of the same cell. FIGS. 177(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 178-179 depict two variants of the same cell. FIGS. 179(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 180-181 depict two variants of the same cell. FIGS. 181(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 182-183 depict two variants of the same cell. FIGS. 183(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 184-185 depict two variants of the same cell. FIGS. 184(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 191-193 depict three variants of the same cell. FIGS. 192(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 194-196 depict three variants of the same cell. FIGS. 195(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 197-199 depict three variants of the same cell. FIGS. 198(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 200-202 depict three variants of the same cell. FIGS. 201(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 203-205 depict three variants of the same cell. FIGS. 204(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 206-208 depict three variants of the same cell. FIGS. 207(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 209-211 depict three variants of the same cell. FIGS. 210(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 212-214 depict three variants of the same cell. FIGS. 213(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 215-217 depict three variants of the same cell. FIGS. 216(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 218-220 depict three variants of the same cell. FIGS. 219(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 221-223 depict three variants of the same cell. FIGS. 222(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 224-226 depict three variants of the same cell. FIGS. 225(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 227-229 depict three variants of the same cell. FIGS. 228(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 230-232 depict three variants of the same cell. FIGS. 231(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 233-235 depict three variants of the same cell. FIGS. 234(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 236-238 depict three variants of the same cell. FIGS. 237(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 239-241 depict three variants of the same cell. FIGS. 240(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 242-244 depict three variants of the same cell. FIGS. 243(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 245-247 depict three variants of the same cell. FIGS. 246(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 248-250 depict three variants of the same cell. FIGS. 249(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 251-253 depict three variants of the same cell. FIGS. 252(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 254-256 depict three variants of the same cell. FIGS. 255(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 257-259 depict three variants of the same cell. FIGS. 258(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 260-262 depict three variants of the same cell. FIGS. 261(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 263-265 depict three variants of the same cell. FIGS. 264(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 266-268 depict three variants of the same cell. FIGS. 267(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 269-271 depict three variants of the same cell. FIGS. 219(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 272-274 depict three variants of the same cell. FIGS. 273(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 275-277 depict three variants of the same cell. FIGS. 276(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 278-280 depict three variants of the same cell. FIGS. 279(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 281-283 depict three variants of the same cell. FIGS. 2821(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 284-286 depict three variants of the same cell. FIGS. 285(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 363-365 depict three variants of the same cell. FIGS. 363(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 366-368 depict three variants of the same cell. FIGS. 367(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 369-371 depict three variants of the same cell. FIGS. 369(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 372-374 depict three variants of the same cell. FIGS. 372(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 377-379 depict three variants of the same cell. FIGS. 378(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 380-382 depict three variants of the same cell. FIGS. 381(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 383-385 depict three variants of the same cell. FIGS. 384(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 386-388 depict three variants of the same cell. FIGS. 387(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 389-391 depict three variants of the same cell. FIGS. 390(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 392-394 depict three variants of the same cell. FIGS. 393(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 395-397 depict three variants of the same cell. FIGS. 396(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 398-400 depict three variants of the same cell. FIGS. 399(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 401-403 depict three variants of the same cell. FIGS. 402(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 404-406 depict three variants of the same cell. FIGS. 405(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 407-409 depict three variants of the same cell. FIGS. 408(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 410-412 depict three variants of the same cell. FIGS. 411(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 413-415 depict three variants of the same cell. FIGS. 414(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 476-477 depict two variants of the same cell. FIGS. 477(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 478-479 depict two variants of the same cell. FIGS. 479(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 480-481 depict two variants of the same cell. FIGS. 481(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 482-483 depict two variants of the same cell. FIGS. 483(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 487-489 depict three variants of the same cell. FIGS. 488(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 492-494 depict three variants of the same cell. FIGS. 493(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 519-533 depict variants of the same cell. FIGS. 519(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 522-536 depict variants of the same cell. FIGS. 522(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 525-539 depict variants of the same cell. FIGS. 525(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 528-542 depict variants of the same cell. FIGS. 528(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 543-545 depict three variants of the same cell. FIGS. 544(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 546-548 depict three variants of the same cell. FIGS. 547(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 549-551 depict three variants of the same cell. FIGS. 550(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 552-554 depict three variants of the same cell. FIGS. 553(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 599-601 depict three variants of the same cell. FIGS. 600(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 602-604 depict three variants of the same cell. FIGS. 603(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 605-607 depict three variants of the same cell. FIGS. 606(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 608-610 depict three variants of the same cell. FIGS. 609(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 611-613 depict three variants of the same cell. FIGS. 612(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 614-616 depict three variants of the same cell. FIGS. 615(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 617-619 depict three variants of the same cell. FIGS. 618(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 621-623 depict three variants of the same cell. FIGS. 622(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 624-626 depict three variants of the same cell. FIGS. 625(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 627-629 depict three variants of the same cell. FIGS. 628(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 630-632 depict three variants of the same cell. FIGS. 631(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 668-670 depict three variants of the same cell. FIGS. 669(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 756-758 depict three variants of the same cell. FIGS. 757(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 759-760 depict two variants of the same cell. FIGS. 759(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 762-764 depict three variants of the same cell. FIGS. 764(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 765-767 depict three variants of the same cell. FIGS. 766(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 768-770 depict three variants of the same cell. FIGS. 769(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 771-773 depict three variants of the same cell. FIGS. 772(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 774-776 depict three variants of the same cell. FIGS. 774(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 777-779 depict three variants of the same cell. FIGS. 779(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 780-782 depict three variants of the same cell. FIGS. 780(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 783-785 depict three variants of the same cell. FIGS. 785(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 799-801 depict three variants of the same cell. FIGS. 800(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 802-804 depict three variants of the same cell. FIGS. 803(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 805-807 depict three variants of the same cell. FIGS. 806(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 808-810 depict three variants of the same cell. FIGS. 809(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 811-813 depict three variants of the same cell. FIGS. 812(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 814-816 depict three variants of the same cell. FIGS. 815(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 817-819 depict three variants of the same cell. FIGS. 818(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 820-822 depict three variants of the same cell. FIGS. 821(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 830-832 depict three variants of the same cell. FIGS. 831(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 860-862 depict three variants of the same cell. FIGS. 861(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 863-865 depict three variants of the same cell. FIGS. 864(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 866-867 depict two variants of the same cell. The figure set represents intentionally misaligned conditions.

FIGS. 868-869 depict two variants of the same cell. The figure set represents intentionally misaligned conditions.

FIGS. 870-872 depict three variants of the same cell. FIGS. 871(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 873-875 depict three variants of the same cell. FIGS. 874(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 876-878 depict three variants of the same cell. FIGS. 877(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 880-882 depict three variants of the same cell. FIGS. 881(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 883-885 depict three variants of the same cell. FIGS. 884(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 886-888 depict three variants of the same cell. FIGS. 887(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 889-891 depict three variants of the same cell. FIGS. 890(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 892-894 depict three variants of the same cell. FIGS. 893(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 895-897 depict three variants of the same cell. FIGS. 896(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 898-900 depict three variants of the same cell. FIGS. 899(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 901-903 depict three variants of the same cell. FIGS. 902(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1003-1005 depict three variants of the same cell. FIGS. 1004(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1006-1008 depict three variants of the same cell. FIGS. 1007(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1009-1011 depict three variants of the same cell. FIGS. 1010(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1081-1082 depict two variants of the same cell. FIGS. 1081(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1096-1098 depict three variants of the same cell. FIGS. 1097(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1099-1101 depict three variants of the same cell. FIGS. 1100(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1102-1104 depict three variants of the same cell. FIGS. 1103(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1105-1107 depict three variants of the same cell. FIGS. 1106(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1108-1110 depict three variants of the same cell. FIGS. 1109(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1111-1113 depict three variants of the same cell. FIGS. 1112(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1114-1116 depict three variants of the same cell. FIGS. 1115(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1117-1119 depict three variants of the same cell. FIGS. 1118(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1138-1140 depict three variants of the same cell. FIGS. 1139(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1141-1143 depict three variants of the same cell. FIGS. 1142(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1144-1145 depict two variants of the same cell. The figure set represents intentionally misaligned conditions.

FIGS. 1146-1147 depict two variants of the same cell. The figure set represents intentionally misaligned conditions.

FIGS. 1150-1152 depict three variants of the same cell. FIGS. 1151(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1153-1155 depict three variants of the same cell. FIGS. 1154(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1156-1158 depict three variants of the same cell. FIGS. 1157(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1159-1161 depict three variants of the same cell. FIGS. 1160(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1162-1164 depict three variants of the same cell. FIGS. 1163(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1165-1167 depict three variants of the same cell. FIGS. 1166(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1168-1170 depict three variants of the same cell. FIGS. 1169(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1171-1173 depict three variants of the same cell. FIGS. 1172(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1174-1176 depict three variants of the same cell. FIGS. 1175(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1177-1179 depict three variants of the same cell. FIGS. 1178(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1189-1191 depict three variants of the same cell. FIGS. 1190(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1192-1194 depict three variants of the same cell. FIGS. 1193(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1195-1197 depict three variants of the same cell. FIGS. 1196(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1198-1200 depict three variants of the same cell. FIGS. 1199(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1201-1203 depict two variants of the same cell. FIGS. 1202(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1204-1206 depict three variants of the same cell. FIGS. 1205(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1207-1209 depict three variants of the same cell. FIGS. 1207(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1210-1212 depict three variants of the same cell. FIGS. 1210(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1213-1215 depict three variants of the same cell. FIGS. 1213(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1216-1218 depict three variants of the same cell. FIGS. 1216(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1219-1221 depict three variants of the same cell. FIGS. 1220(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1222-1224 depict three variants of the same cell. FIGS. 1223(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1225-1227 depict three variants of the same cell. FIGS. 1226(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1228-1230 depict three variants of the same cell. FIGS. 1229(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1231-1233 depict three variants of the same cell. FIGS. 1232(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1236-1238 depict three variants of the same cell. FIGS. 1237(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1239-1242 depict variants of the same cell. FIGS. 1242(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1240-1241 depict two variants of the same cell. FIGS. 1240(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1249-1251 depict three variants of the same cell. FIGS. 1250(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1252-1254 depict three variants of the same cell. FIGS. 1253(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1255-1257 depict three variants of the same cell. FIGS. 1256(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1258-1260 depict three variants of the same cell. FIGS. 1259(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1261-1263 depict three variants of the same cell. FIGS. 1262(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1293-1294 depict two variants of the same cell. FIGS. 1294(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1295-1296 depict two variants of the same cell. FIGS. 1296(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1367-1368 depict two variants of the same cell. FIGS. 1368(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1369-1370 depict two variants of the same cell. FIGS. 1370(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1371-1372 depict two variants of the same cell. FIGS. 1372(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1373-1375 depict three variants of the same cell. FIGS. 1374(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1376-1377 depict two variants of the same cell. FIGS. 1377(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1378-1379 depict two variants of the same cell. FIGS. 1379(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1386-1387 depict two variants of the same cell. FIGS. 1386(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1388-1389 depict two variants of the same cell. FIGS. 1389(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1390-1391 depict two variants of the same cell. The figure set represents intentionally misaligned conditions.

FIGS. 1392-1394 depict three variants of the same cell. FIGS. 1392(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1399-1401 depict three variants of the same cell. FIGS. 1400(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1402-1404 depict three variants of the same cell. FIGS. 1403(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1406-1407 depict two variants of the same cell. FIGS. 1407(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1410-1412 depict three variants of the same cell. FIGS. 1411(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1451-1452 depict two variants of the same cell. FIGS. 1452(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1456-1458 depict three variants of the same cell. FIGS. 1457(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1510-1512 depict three variants of the same cell. FIGS. 1511(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1513-1515 depict three variants of the same cell. FIGS. 1514(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1516-1518 depict three variants of the same cell. FIGS. 1517(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1522-1524 depict three variants of the same cell. FIGS. 1523(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1525-1527 depict three variants of the same cell. FIGS. 1526(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1528-1530 depict three variants of the same cell. FIGS. 1528(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1531-1533 depict three variants of the same cell. FIGS. 1531(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1534-1536 depict three variants of the same cell. FIGS. 1534(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1537-1539 depict three variants of the same cell. FIGS. 1537(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1543-1545 depict three variants of the same cell. FIGS. 1544(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1546-1548 depict three variants of the same cell. FIGS. 1547(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1553-1554 depict two variants of the same cell. FIGS. 1554(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1555-1556 depict two variants of the same cell. FIGS. 1556(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1557-1559 depict three variants of the same cell. FIGS. 1558(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1560-1562 depict three variants of the same cell. FIGS. 1561(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1563-1565 depict three variants of the same cell. FIGS. 1564(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1566-1568 depict three variants of the same cell. FIGS. 1567(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1569-1571 depict three variants of the same cell. FIGS. 1570(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1572-1574 depict three variants of the same cell. FIGS. 1573(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1575-1577 depict three variants of the same cell. FIGS. 1576(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1578-1580 depict three variants of the same cell. FIGS. 1579(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1581-1583 depict three variants of the same cell. FIGS. 1582(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1584-1586 depict three variants of the same cell. FIGS. 1585(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1587-1589 depict three variants of the same cell. FIGS. 1588(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1590-1592 depict three variants of the same cell. FIGS. 1591(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1593-1595 depict three variants of the same cell. FIGS. 1594(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1596-1598 depict three variants of the same cell. FIGS. 1597(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1599-1601 depict three variants of the same cell. FIGS. 1600(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1602-1604 depict three variants of the same cell. FIGS. 1603(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1605-1607 depict three variants of the same cell. FIGS. 1606(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1608-1610 depict three variants of the same cell. FIGS. 1609(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1611-1613 depict three variants of the same cell. FIGS. 1612(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1614-1616 depict three variants of the same cell. FIGS. 1615(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1617-1619 depict three variants of the same cell. FIGS. 1618(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1620-1622 depict three variants of the same cell. FIGS. 1621(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1623-1625 depict three variants of the same cell. FIGS. 1624(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1626-1628 depict three variants of the same cell. FIGS. 1627(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1646-1647 depict two variants of the same cell. FIGS. 1646(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1648-1649 depict two variants of the same cell. FIGS. 1648(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1650-1652 depict three variants of the same cell. FIGS. 1651(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1653-1655 depict three variants of the same cell. FIGS. 1654(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1656-1658 depict three variants of the same cell. FIGS. 1657(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1659-1661 depict three variants of the same cell. FIGS. 1660(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1663-1664 depict two variants of the same cell. FIGS. 1663(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1665-1667 depict three variants of the same cell. FIGS. 1666(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1669-1670 depict two variants of the same cell. FIGS. 1669(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1671-1673 depict three variants of the same cell. FIGS. 1672(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1674-1676 depict three variants of the same cell. FIGS. 1675(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1677-1679 depict three variants of the same cell. FIGS. 1678(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1680-1682 depict three variants of the same cell. FIGS. 1681(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1687-1689 depict three variants of the same cell. FIGS. 1688(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1690-1692 depict three variants of the same cell. FIGS. 1691(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1693-1695 depict three variants of the same cell. FIGS. 1694(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1696-1698 depict three variants of the same cell. FIGS. 1697(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1715-1717 depict three variants of the same cell. FIGS. 1716(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1718-1720 depict three variants of the same cell. FIGS. 1719(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1800-1802 depict three variants of the same cell. FIGS. 1801(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1813-1815 depict three variants of the same cell. FIGS. 1814(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1816-1818 depict three variants of the same cell. FIGS. 1817(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1819-1821 depict three variants of the same cell. FIGS. 1820(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1822-1824 depict three variants of the same cell. FIGS. 1823(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1825-1827 depict three variants of the same cell. FIGS. 1826(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1828-1830 depict three variants of the same cell. FIGS. 1829(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1831-1832 depict two variants of the same cell. FIGS. 1831(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1833-1835 depict three variants of the same cell. FIGS. 1833(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1836-1838 depict three variants of the same cell. FIGS. 1836(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1839-1841 depict three variants of the same cell. FIGS. 1839(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1842-1844 depict three variants of the same cell. FIGS. 1842(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1845-1847 depict three variants of the same cell. FIGS. 1845(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1848-1849 depict two variants of the same cell. FIGS. 1848(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1850-1852 depict three variants of the same cell. FIGS. 1850(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1853-1855 depict three variants of the same cell. FIGS. 1853(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1856-1858 depict three variants of the same cell. FIGS. 1856(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1859-1861 depict three variants of the same cell. FIGS. 1859(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1867-1869 depict three variants of the same cell. FIGS. 1868(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1870-1872 depict three variants of the same cell. FIGS. 1871(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1873-1875 depict three variants of the same cell. FIGS. 1874(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1876-1878 depict three variants of the same cell. FIGS. 1877(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1879-1881 depict three variants of the same cell. FIGS. 1880(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1882-1884 depict three variants of the same cell. FIGS. 1883(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1885-1887 depict three variants of the same cell. FIGS. 1886(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1888-1890 depict three variants of the same cell. FIGS. 1889(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1891-1893 depict three variants of the same cell. FIGS. 1892(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1894-1896 depict three variants of the same cell. FIGS. 1895(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1897-1899 depict three variants of the same cell. FIGS. 1898(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1900-1902 depict three variants of the same cell. FIGS. 1901(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1903-1905 depict three variants of the same cell. FIGS. 1904(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1906-1908 depict three variants of the same cell. FIGS. 1907(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1909-1911 depict three variants of the same cell. FIGS. 1910(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1912-1914 depict three variants of the same cell. FIGS. 1913(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1915-1917 depict three variants of the same cell. FIGS. 1916(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1918-1920 depict three variants of the same cell. FIGS. 1919(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1921-1923 depict three variants of the same cell. FIGS. 1922(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1924-1926 depict three variants of the same cell. FIGS. 1925(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1927-1929 depict three variants of the same cell. FIGS. 1928(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1930-1932 depict three variants of the same cell. FIGS. 1931(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1933-1935 depict three variants of the same cell. FIGS. 1934(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1936-1938 depict three variants of the same cell. FIGS. 1937(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1939-1941 depict three variants of the same cell. FIGS. 1940(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1943-1944 depict two variants of the same cell. FIGS. 1943(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1945-1947 depict three variants of the same cell. FIGS. 1946(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1948-1950 depict three variants of the same cell. FIGS. 1949(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1951-1953 depict three variants of the same cell. FIGS. 1952(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1954-1956 depict three variants of the same cell. FIGS. 1955(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1957-1959 depict three variants of the same cell. FIGS. 1958(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1960-1962 depict three variants of the same cell. FIGS. 1961(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1963-1965 depict three variants of the same cell. FIGS. 1964(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1966-1968 depict three variants of the same cell. FIGS. 1967(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1969-1971 depict three variants of the same cell. FIGS. 1970(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1972-1974 depict three variants of the same cell. FIGS. 1973(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1975-1977 depict three variants of the same cell. FIGS. 1976(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1978-1980 depict three variants of the same cell. FIGS. 1979(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1981-1983 depict three variants of the same cell. FIGS. 1982(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1984-1986 depict three variants of the same cell. FIGS. 1985(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1987-1989 depict three variants of the same cell. FIGS. 1988(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1990-1993 depict variants of the same cell. FIGS. 1991(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1994-1996 depict three variants of the same cell. FIGS. 1995(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 1997-1999 depict three variants of the same cell. FIGS. 1998(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2000-2002 depict three variants of the same cell. FIGS. 2001(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2003-2005 depict three variants of the same cell. FIGS. 2003(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2006-2008 depict three variants of the same cell. FIGS. 2007(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2009-2011 depict three variants of the same cell. FIGS. 2010(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2012-2014 depict three variants of the same cell. FIGS. 2013(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2015-2017 depict three variants of the same cell. FIGS. 2016(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2018-2020 depict three variants of the same cell. FIGS. 2019(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2021-2023 depict three variants of the same cell. FIGS. 2022(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2024-2026 depict three variants of the same cell. FIGS. 2025(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2027-2029 depict three variants of the same cell. FIGS. 2028(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2030-2032 depict three variants of the same cell. FIGS. 2031(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2033-2035 depict three variants of the same cell. FIGS. 2034(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2036-2038 depict three variants of the same cell. FIGS. 2037(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2039-2041 depict three variants of the same cell. FIGS. 2040(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2042-2044 depict three variants of the same cell. FIGS. 2043(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2045-2047 depict three variants of the same cell. FIGS. 2046(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2048-2050 depict three variants of the same cell. FIGS. 2049(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2051-2053 depict three variants of the same cell. FIGS. 2052(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2054-2056 depict three variants of the same cell. FIGS. 2055(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2057-2059 depict three variants of the same cell. FIGS. 2058(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2111-2113 depict three variants of the same cell. FIGS. 2112(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2114-2116 depict three variants of the same cell. FIGS. 2115(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2117-2118 depict two variants of the same cell. The figure set represents intentionally misaligned conditions.

FIGS. 2219-2220 depict two variants of the same cell. The figure set represents intentionally misaligned conditions.

FIGS. 2121-22123 depict three variants of the same cell. FIGS. 2122(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2124-2126 depict three variants of the same cell. FIGS. 2125(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2127-2129 depict three variants of the same cell. FIGS. 2128(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2130-2132 depict three variants of the same cell. FIGS. 2131(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2133-2135 depict three variants of the same cell. FIGS. 2133(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2136-2138 depict two variants of the same cell. FIGS. 2136(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2138-2139 depict two variants of the same cell. FIGS. 2138(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2140-2141 depict two variants of the same cell. FIGS. 2140(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2142-2143 depict two variants of the same cell. FIGS. 2142(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2144-2145 depict two variants of the same cell. FIGS. 2144(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2146-2147 depict two variants of the same cell. FIGS. 2146(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2148-2150 depict three variants of the same cell. FIGS. 2148(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2151-2153 depict three variants of the same cell. FIGS. 2151(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2154-2156 depict three variants of the same cell. FIGS. 2154(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2157-2159 depict three variants of the same cell. FIGS. 2158(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2160-2162 depict three variants of the same cell. FIGS. 2161(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2163-2165 depict three variants of the same cell. FIGS. 2164(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2166-2168 depict three variants of the same cell. FIGS. 2167(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2171-2173 depict three variants of the same cell. FIGS. 2172(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2174-2176 depict three variants of the same cell. FIGS. 2175(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2177-2179 depict three variants of the same cell. FIGS. 2178(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2180-2182 depict three variants of the same cell. FIGS. 2181(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2183-2185 depict three variants of the same cell. FIGS. 2184(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2186-2188 depict three variants of the same cell. FIGS. 2187(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2189-2191 depict three variants of the same cell. FIGS. 2190(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2192-2194 depict three variants of the same cell. FIGS. 2193(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2195-2197 depict three variants of the same cell. FIGS. 2196(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2200-2202 depict three variants of the same cell. FIGS. 2201(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2203-2205 depict three variants of the same cell. FIGS. 2204(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2206-2208 depict three variants of the same cell. FIGS. 2207(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2209-2211 depict three variants of the same cell. FIGS. 2210(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2212-2214 depict three variants of the same cell. FIGS. 2213(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2215-2217 depict three variants of the same cell. FIGS. 2216(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2218-2220 depict three variants of the same cell. FIGS. 2219(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2221-2223 depict three variants of the same cell. FIGS. 2222(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2224-2226 depict three variants of the same cell. FIGS. 2225(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2227-2229 depict three variants of the same cell. FIGS. 2228(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2230-2232 depict three variants of the same cell. FIGS. 2231(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2233-2235 depict three variants of the same cell. FIGS. 2234(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2236-2238 depict three variants of the same cell. FIGS. 2237(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2239-2241 depict three variants of the same cell. FIGS. 2240(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2242-2244 depict three variants of the same cell. FIGS. 2243(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2245-2247 depict three variants of the same cell. FIGS. 2246(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2248-2250 depict three variants of the same cell. FIGS. 2249(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2251-2253 depict three variants of the same cell. FIGS. 2252(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2254-2256 depict three variants of the same cell. FIGS. 2255(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2257-2259 depict three variants of the same cell. FIGS. 2258(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2260-2262 depict three variants of the same cell. FIGS. 2261(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2263-2265 depict three variants of the same cell. FIGS. 2264(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2266-2268 depict three variants of the same cell. FIGS. 2267(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2269-2271 depict three variants of the same cell. FIGS. 2270(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2272-2274 depict three variants of the same cell. FIGS. 2273(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2275-2277 depict three variants of the same cell. FIGS. 2276(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2278-2280 depict three variants of the same cell. FIGS. 2279(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2281-2282 depict two variants of the same cell. FIGS. 2282(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2283-2285 depict three variants of the same cell. FIGS. 2284(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2286-2288 depict three variants of the same cell. FIGS. 2287(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2289-2290 depict two variants of the same cell. FIGS. 2290(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2291-2293 depict three variants of the same cell. FIGS. 2292(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2294-2296 depict three variants of the same cell. FIGS. 2295(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2297-2299 depict three variants of the same cell. FIGS. 2298(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2300-2302 depict three variants of the same cell. FIGS. 2301(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2303-2305 depict three variants of the same cell. FIGS. 2304(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2306-2308 depict three variants of the same cell. FIGS. 2307(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2309-2311 depict three variants of the same cell. FIGS. 2310(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2312-2314 depict three variants of the same cell. FIGS. 2313(A)-(B) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2345-2347 depict three variants of the same cell. FIGS. 2346(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2348-2350 depict three variants of the same cell. FIGS. 2349(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2351-2353 depict three variants of the same cell. FIGS. 2351(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2354-2356 depict three variants of the same cell. FIGS. 2354(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2357-2359 depict three variants of the same cell. FIGS. 2358(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2360-2362 depict three variants of the same cell. FIGS. 2361(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2363-2365 depict three variants of the same cell. FIGS. 2364(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2366-2368 depict three variants of the same cell. FIGS. 2367(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2369-2371 depict three variants of the same cell. FIGS. 2370(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2372-2374 depict three variants of the same cell. FIGS. 2373(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2375-2377 depict three variants of the same cell. FIGS. 2376(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2378-2380 depict three variants of the same cell. FIGS. 2379(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2381-2383 depict three variants of the same cell. FIGS. 2382(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2384-2386 depict three variants of the same cell. FIGS. 2385(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2387-2389 depict three variants of the same cell. FIGS. 2388(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2390-2392 depict three variants of the same cell. FIGS. 2391(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2399-2401 depict three variants of the same cell. FIGS. 2399(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2402-2403 depict two variants of the same cell. The figure set represents intentionally misaligned conditions.

FIGS. 2404-2406 depict three variants of the same cell. FIGS. 2405(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2407-2409 depict three variants of the same cell. FIGS. 2408(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2410-2412 depict three variants of the same cell. FIGS. 2411(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2413-2415 depict three variants of the same cell. FIGS. 2414(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2416-2418 depict three variants of the same cell. FIGS. 2417(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2419-2421 depict three variants of the same cell. FIGS. 2420(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2422-2424 depict three variants of the same cell. FIGS. 2423(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2425-2427 depict three variants of the same cell. FIGS. 2426(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2428-2430 depict three variants of the same cell. FIGS. 2429(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2431-2433 depict three variants of the same cell. FIGS. 2432(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2434-2436 depict three variants of the same cell. FIGS. 2435(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2437-2439 depict three variants of the same cell. FIGS. 2438(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2442-2444 depict three variants of the same cell. FIGS. 2443(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2445-2447 depict three variants of the same cell. FIGS. 2446(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2448-2450 depict three variants of the same cell. FIGS. 2449(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2451-2453 depict three variants of the same cell. FIGS. 2452(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2454-2456 depict three variants of the same cell. FIGS. 2455(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 2457-2459 depict three variants of the same cell. FIGS. 2458(A)-(C) show the nominal case, whereas the other figures represent intentionally misaligned conditions.

FIGS. 203-223, 236-286, 389-397, 404-409, 485-494, 546-548, 552-554, 621-632, 682, 691, 731-734, 762-785, 848-859, 880-903, 1014-1040, 1096-1119, 1189-1200, 1222-1224, 1234-1238, 1249-1263, 1543-1548, 1687-1698, 1870-1872, 1876-1881, 1885-1902, 1912-1947, 1954-1980, 1984-1993, 2003-2005, 2157-2314, 2343-2344, 2357-2374, and 2404-2461 show depictions of NCEM-enabled fill cells without NCEM pads. Persons skilled in the art will understand that pads of any design (e.g., FIGS. 9A-9IIII, etc.) would be added, either at the left edge with a corresponding leftward extension of the supply rails, or overlying or partially overlying the depicted portion of the cells.

Certain of the claims that follow may contain one or more means-plus-function limitations of the form, “a<cell name> means for enabling NC detection of a GATE-tip-to-tip short.” It is applicant's intent that such limitations be construed, pursuant to 35 U.S.C. § 112(f), as “the structure of the named cell, or an equivalent structure, that enables detection of a GATE-tip-to-tip short by non-contact measurement.”

Additionally, certain of the claims that follow may contain one or more step-plus-function limitations of the form, “a<cell name> step for enabling NC detection of a GATE-tip-to-tip short.” It is applicant's intent that such limitations be construed, pursuant to 35 U.S.C. § 112(f), as “enabling voltage contrast detection of a GATE-tip-to-tip short by patterning an instance of the named cell, or an equivalent cell.”

While the invention has been illustrated with respect to one or more specific implementations, numerous alterations and/or modifications can be made to the illustrated examples without departing from the spirit and scope of the appended claims. In addition, while a particular feature of the invention may have been disclosed with respect to only one of several implementations, such feature may be combined with one or more other features of the other implementations as may be desired and advantageous for any given or particular application. Furthermore, to the extent that the terms “including,” “includes,” “having,” “has,” “with,” or variants thereof are used in either the detailed description or the claims, such terms are intended to be inclusive in a manner similar to the term “comprising.” As used herein, the phrase “X comprises one or more of A, B, and C” means that X can include any of the following: either A, B, or C alone; or combinations of two, such as A and B, B and C, and A and C; or combinations of three A, B and C. 

What we claim in this application is:
 1. A method for making integrated circuits (ICs), comprising at least: (a) performing initial processing steps on a semiconductor wafer, said initial processing steps including: patterning a standard cell area that includes a mix of at least one thousand logic cells and fill cells of different widths and uniform heights, placed into at least twenty adjacent rows, with at least twenty cells placed side-by-side in each row; and, patterning a first Design of Experiments (DOE) by instantiating a plurality of similarly-configured, non-contacted electrical measurement (NCEM)-enabled fill cells in at least two variants, said NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area, each of the NCEM-enabled fill cells in said first DOE configured to enable evaluation of a first manufacturing failure by voltage contrast examination of a voltage contrast response at a NCEM pad contained in said cell, said variants exhibiting different NCEM sensitivity to said first manufacturing failure; (b) determining a presence or absence of said first manufacturing failure by: performing a voltage contrast examination of NCEM-enabled fill cells in the first DOE; and, determining whether NCEMs of pads contained in the NCEM-enabled fill cells of said first DOE represent instance(s) of said first manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of said first manufacturing failure; and, (c) based, at least in part, on results from step (b), selectively performing additional processing, metrology or inspection steps on said wafer, and/or on other wafer(s) currently being manufactured using a process flow(s) that create the observed first manufacturing failure.
 2. A method for making ICs, as defined in claim 1, wherein step (a) further comprises: patterning a second DOE by instantiating a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, said NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area and fill cells in the first DOE, each of the NCEM-enabled fill cells in said second DOE configured to enable evaluation of a second manufacturing failure, different from the first manufacturing failure, by voltage contrast examination at a NCEM pad contained in said cell, said variants exhibiting different NCEM sensitivity to said second manufacturing failure; and wherein step (b) further comprises: performing a voltage contrast examination of NCEM-enabled fill cells in the second DOE; and, determining whether NCEMs of pads contained in the NCEM-enabled fill cells of said second DOE represent instance(s) of said second manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of said second manufacturing failure.
 3. A method for making ICs, as defined in claim 2, wherein step (a) further comprises: patterning a third DOE by instantiating a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, said NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area and fill cells in the first and second DOEs, each of the NCEM-enabled fill cells in said third DOE configured to enable evaluation of a third manufacturing failure, different from the first and second manufacturing failures, by voltage contrast examination at a NCEM pad contained in said cell, said variants exhibiting different NCEM sensitivity to said third manufacturing failure; and wherein step (b) further comprises: performing a voltage contrast examination of NCEM-enabled fill cells in the third DOE; and, determining whether NCEMs of pads contained in the NCEM-enabled fill cells of said third DOE represent instance(s) of said third manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of said third manufacturing failure.
 4. A method for making ICs, as defined in claim 3, wherein at least one of the first, second, or third manufacturing failures involves shorts or leakages, and at least one of the first, second, or third manufacturing failures involves opens or excessive resistances.
 5. A method for making ICs, as defined in claim 3, wherein instantiating said NCEM-enabled fill cells comprises distributing said NCEM-enabled fill cells irregularly within the standard cell area.
 6. A method for making ICs, as defined in claim 3, wherein within each of said DOEs, each variant differs from the other variant(s) only in the position, size, or shape of a single mask-patterned feature.
 7. A method for making ICs, as defined in claim 3, wherein at least one of the first, second, or third manufacturing failures involves shorts or leakages between structures in a tip-to-tip configuration.
 8. A method for making ICs, as defined in claim 3, wherein at least one of the first, second, or third manufacturing failures involves shorts or leakages between structures in a tip-to-side configuration.
 9. A method for making ICs, as defined in claim 3, wherein at least one of the first, second, or third manufacturing failures involves shorts or leakages between structures in a side-to-side configuration.
 10. A method for making ICs, as defined in claim 3, wherein at least one of the first, second, or third manufacturing failures involves shorts or leakages between structures in a diagonal configuration.
 11. A method for making ICs, as defined in claim 3, wherein at least one of the first, second, or third manufacturing failures involves shorts or leakages between structures in an interlayer overlap configuration.
 12. A method for making ICs, as defined in claim 3, wherein at least one of the first, second, or third manufacturing failures involves interlayer shorts or leakages between structures in a corner configuration.
 13. A method for making ICs, as defined in claim 3, wherein at least one of the first, second, or third manufacturing failures involves opens or excessive resistances in snake-shaped structures.
 14. A method for making ICs, as defined in claim 3, wherein at least one of the first, second, or third manufacturing failures involves opens or excessive resistances in stitched structures.
 15. A method for making ICs, as defined in claim 3, wherein at least one of the first, second, or third manufacturing failures involves opens or unintended resistances in via-connected structures.
 16. A method for making ICs, as defined in claim 3, wherein each of said first, second, and third DOEs includes NCEM-enabled fill cells in at least three variants.
 17. A method for making ICs, as defined in claim 3, wherein each of said first, second, and third DOEs includes NCEM-enabled fill cells in at least six variants.
 18. A method for making integrated circuits (ICs), comprising at least: (a) performing initial processing steps on a first semiconductor wafer, said initial processing steps including, at least: patterning a first Design of Experiments (DOE) by instantiating a plurality of similarly-configured non-contacted electrical measurement (NCEM)-enabled fill cells in at least two variants, said NCEM-enabled fill cells configured for compatibility with logic cells in a standard cell area, each of the NCEM-enabled fill cells in said first DOE configured to enable evaluation of a first manufacturing failure by voltage contrast examination of a voltage contrast response at a NCEM pad contained in said cell, said variants exhibiting different NCEM sensitivity to said first manufacturing failure; patterning a second DOE by instantiating a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, said NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area and fill cells in the first DOE, each of the NCEM-enabled fill cells in said second DOE configured to enable evaluation of a second manufacturing failure, different from the first manufacturing failure, by examination of a voltage contrast response at a NCEM pad contained in said cell, said variants exhibiting different NCEM sensitivity to said second manufacturing failure; and, patterning a third DOE by instantiating a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, said NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area and fill cells in the first and second DOEs, each of the NCEM-enabled fill cells in said third DOE configured to enable evaluation of a third manufacturing failure, different from the first and second manufacturing failures, by examination of a voltage contrast response at a NCEM pad contained in said cell, said variants exhibiting different NCEM sensitivity to said third manufacturing failure; and, (b) determining a presence or absence of said first, second, and third manufacturing failures by: performing a voltage contrast examination of NCEM-enabled fill cells in the first DOE; determining whether NCEMs of pads contained in said NCEM-enabled fill cells of said first DOE represent instance(s) of said first manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of said first manufacturing failure; performing a voltage contrast examination of NCEM-enabled fill cells in the second DOE; determining whether NCEMs of pads contained in said NCEM-enabled fill cells of said second DOE represent instance(s) of said second manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of said second manufacturing failure; performing a voltage contrast examination of NCEM-enabled fill cells in the third DOE; and, determining whether NCEMs of pads contained in said NCEM-enabled fill cells of said third DOE represent instance(s) of said third manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of said third manufacturing failure; and, (c) based, at least in part, on results from step (b), fabricating product masks that include: the standard cell; and, a fourth DOE that includes a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, said NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area, each of the NCEM-enabled fill cells in said fourth DOE configured to enable evaluation of the first manufacturing failure by examination of a voltage contrast response at a NCEM a pad contained in said cell, said variants exhibiting different NCEM sensitivity to said first manufacturing failure; and, said product masks not including any DOEs configured to enable evaluation of the second or third manufacturing failures; and, (d) using said product masks, performing initial processing steps on a product wafer, said initial processing steps including: patterning said standard cell area; and, patterning said fourth DOE; (e) determining a presence or absence of said first manufacturing failure on said product wafer by: performing a voltage contrast examination of NCEM-enabled fill cells in the fourth DOE; and, determining whether NCEMs of pads contained in said NCEM-enabled fill cells of said fourth DOE represent instance(s) of said first manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of said first manufacturing failure; and, (f) based, at least in part, on results from step (e), selectively performing additional processing, metrology or inspection steps on said product wafer, and/or on other product wafer(s) currently being manufactured using process flow(s) that create the observed first manufacturing failure.
 19. A method for making integrated circuits (ICs), comprising at least: (a) performing initial processing steps on an initial product wafer, said initial processing steps including, at least: patterning a standard cell area that includes a mix of at least one thousand logic cells and fill cells of different widths and uniform heights, placed into at least twenty adjacent rows, with at least twenty cells placed side-by-side in each row; and, patterning, within said standard cell area, a first Design of Experiments (DOE) by instantiating a plurality of similarly-configured non-contact electrical measurement (NCEM)-enabled fill cells in at least two variants, said NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area, each of the NCEM-enabled fill cells in said first DOE configured to enable evaluation of a first manufacturing failure by examination of a voltage contrast response at a NCEM pad contained in said cell, said variants exhibiting different NCEM sensitivity to said first manufacturing failure; patterning a second DOE by instantiating a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, said NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area and fill cells in the first DOE, each of the NCEM-enabled fill cells in said second DOE configured to enable evaluation of a second manufacturing failure, different from the first manufacturing failure, by examination of a voltage contrast response at a NCEM pad contained in said cell, said variants exhibiting different NCEM sensitivity to said second manufacturing failure; and, (b) determining a presence or absence of said first and second manufacturing failures on said initial product wafer by: performing a voltage contrast examination of NCEM-enabled fill cells in the first DOE; determining whether NCEMs of pads contained in said NCEM-enabled fill cells of said first DOE represent instance(s) of said first manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of said first manufacturing failure; performing a voltage contrast examination of NCEM-enabled fill cells in the second DOE; and, determining whether NCEMs of pads contained in said NCEM-enabled fill cells of said second DOE represent instance(s) of said second manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of said second manufacturing failure; and, (c) based, at least in part, on results from step (b), fabricating final product masks that include: a standard cell area that includes a mix of at least one thousand logic cells and fill cells of different widths and uniform heights, placed into at least twenty adjacent rows, with at least twenty cells placed side-by-side in each row; and, a third DOE that includes a plurality of similarly-configured NCEM-enabled fill cells in at least two variants, said NCEM-enabled fill cells configured for compatibility with logic cells in the standard cell area, each of the NCEM-enabled fill cells in said third DOE configured to enable evaluation of the first manufacturing failure by examination of a voltage contrast response at a NCEM pad contained in said cell, said variants exhibiting different NCEM sensitivity to said first manufacturing failure; said final product masks not including any DOEs configured to enable evaluation of the second manufacturing failure; and, (d) using said final product masks, performing initial processing steps on a final product wafer, said initial processing steps including: patterning said standard cell area; and, patterning said third DOE; and, (e) determining a presence or absence of said first manufacturing failure on said final product wafer by: performing a voltage contrast examination of NCEM-enabled fill cells in the third DOE; and, determining whether NCEMs of pads contained in said NCEM-enabled fill cells of said third DOE represent instance(s) of said first manufacturing failure and, if so, determining whether different cell variants exhibit a different prevalence of said first manufacturing failure; and, (f) based, at least in part, on results from step (e), selectively performing additional processing, metrology or inspection steps on said final product wafer, and/or on other product wafer(s) currently being manufactured using process flow(s) that create the observed first manufacturing failure. 